Link M S, Wang P J, Pandian N G, Bharati S, Udelson J E, Lee M Y, Vecchiotti M A, VanderBrink B A, Mirra G, Maron B J, Estes N A
Cardiac Arrhythmia Service, Tufts-New England Medical Center, Boston, MA 02111, USA.
N Engl J Med. 1998 Jun 18;338(25):1805-11. doi: 10.1056/NEJM199806183382504.
The syndrome of sudden death due to low-energy trauma to the chest wall (commotio cordis) has been described in young sports participants, but the mechanism is unknown.
We developed a swine model of commotio cordis in which a low-energy impact to the chest wall was produced by a wooden object the size and weight of a regulation baseball. This projectile was thrust at a velocity of 30 miles per hour and was timed to the cardiac cycle.
We first studied 18 young pigs, 6 subjected to multiple chest impacts and 12 to single impacts. Of the 10 impacts occurring within the window from 30 to 15 msec before the peak of the T wave on the electrocardiogram, 9 produced ventricular fibrillation. Ventricular fibrillation was not produced by impacts at any other time during the cardiac cycle. Of the 10 impacts sustained during the QRS complex, 4 resulted in transient complete heart block. We also studied whether the use of safety baseballs, which are softer than standard ones, would reduce the risk of arrhythmia. A total of 48 additional animals sustained up to three impacts during the T-wave window of vulnerability to ventricular fibrillation with a regulation baseball and safety baseballs of three degrees of hardness. We found that the likelihood of ventricular fibrillation was proportional to the hardness of the ball, with the softest balls associated with the lowest risk (two instances of ventricular fibrillation after 26 impacts, as compared with eight instances after 23 impacts with regulation baseballs).
This experimental model of commotio cordis closely resembles the clinical profile of this catastrophic event. Whether ventricular fibrillation occurred depended on the precise timing of the impact. Safety baseballs, as compared with regulation balls, may reduce the risk of commotio cordis.
胸壁低能量创伤(心脏震荡)导致的猝死综合征在年轻体育参与者中已有报道,但机制尚不清楚。
我们建立了一种心脏震荡猪模型,用一个大小和重量与标准棒球相同的木制物体对胸壁进行低能量撞击。该抛射物以每小时30英里的速度推进,并与心动周期同步计时。
我们首先研究了18只幼猪,6只接受多次胸部撞击,12只接受单次撞击。在心电图T波峰值前30至15毫秒的窗口内发生的10次撞击中,9次导致心室颤动。在心动周期的任何其他时间进行撞击均未引发心室颤动。在QRS波群期间发生的10次撞击中,4次导致短暂性完全性心脏传导阻滞。我们还研究了使用比标准棒球更软的安全棒球是否会降低心律失常的风险。另外48只动物在心室颤动易损的T波窗口内,分别用标准棒球和三种硬度的安全棒球进行了多达三次撞击。我们发现心室颤动的可能性与球的硬度成正比,最软的球风险最低(26次撞击后有2次心室颤动,而标准棒球23次撞击后有8次)。
这种心脏震荡实验模型与这一灾难性事件的临床特征非常相似。心室颤动是否发生取决于撞击的精确时间。与标准球相比,安全棒球可能会降低心脏震荡的风险。
