Kyhl Kasper, Drvis Ivan, Barak Otto, Mijacika Tanja, Engstrøm Thomas, Secher Niels H, Dujic Zeljko, Buca Ante, Madsen Per Lav
Cardiac MRI Group, Department of Cardiology, Rigshospitalet, University of Copenhagen, Copenhagen, Denmark;
School of Kinesiology, University of Zagreb, Zagreb, Croatia;
Am J Physiol Heart Circ Physiol. 2016 Feb 1;310(3):H444-51. doi: 10.1152/ajpheart.00739.2015. Epub 2015 Nov 20.
Pulmonary hyperinflation is used by competitive breath-hold divers and is accomplished by glossopharyngeal insufflation (GPI), which is known to compress the heart and pulmonary vessels, increasing sympathetic activity and lowering cardiac output (CO) without known consequence for organ perfusion. Myocardial, pulmonary, skeletal muscle, kidney, and liver perfusion were evaluated by magnetic resonance imaging in 10 elite breath-hold divers at rest and during moderate GPI. Cardiac chamber volumes, stroke volume, and thus CO were determined from cardiac short-axis cine images. Organ volumes were assessed from gradient echo sequences, and organ perfusion was evaluated from first-pass images after gadolinium injection. During GPI, lung volume increased by 5.2 ± 1.5 liters (mean ± SD; P < 0.001), while spleen and liver volume decreased by 46 ± 39 and 210 ± 160 ml, respectively (P < 0.05), and inferior caval vein diameter by 4 ± 3 mm (P < 0.05). Heart rate tended to increase (67 ± 10 to 86 ± 20 beats/min; P = 0.052) as right and left ventricular volumes were reduced (P < 0.05). Stroke volume (107 ± 21 to 53 ± 15 ml) and CO (7.2 ± 1.6 to 4.2 ± 0.8 l/min) decreased as assessed after 1 min of GPI (P < 0.01). Left ventricular myocardial perfusion maximum upslope and its perfusion index decreased by 1.52 ± 0.15 s(-1) (P < 0.001) and 0.02 ± 0.01 s(-1) (P < 0.05), respectively, without transmural differences. Pulmonary tissue, spleen, kidney, and pectoral-muscle perfusion also decreased (P < 0.05), and yet liver perfusion was maintained. Thus, during pulmonary hyperinflation by GPI, CO and organ perfusion, including the myocardium, as well as perfusion of skeletal muscles, are reduced, and yet perfusion of the liver is maintained. Liver perfusion seems to be prioritized when CO decreases during GPI.
竞技性屏气潜水者会采用肺过度充气,这是通过咽鼓管吹气(GPI)来实现的,已知这种方法会压迫心脏和肺血管,增加交感神经活动并降低心输出量(CO),但对器官灌注尚无已知影响。通过磁共振成像对10名精英屏气潜水者在静息状态和中度GPI期间的心肌、肺、骨骼肌、肾脏和肝脏灌注进行了评估。从心脏短轴电影图像确定心腔容积、每搏输出量以及因此的心输出量。从梯度回波序列评估器官容积,并在注射钆后从首过图像评估器官灌注。在GPI期间,肺容积增加了5.2±1.5升(平均值±标准差;P<0.001),而脾脏和肝脏容积分别减少了46±39毫升和210±160毫升(P<0.05),下腔静脉直径减少了4±3毫米(P<0.05)。随着左右心室容积减小(P<0.05),心率有增加趋势(从67±10次/分钟增至86±20次/分钟;P=0.052)。在GPI 1分钟后评估发现,每搏输出量(从107±21毫升降至53±15毫升)和心输出量(从7.2±1.6升/分钟降至4.2±0.8升/分钟)下降(P<0.01)。左心室心肌灌注最大上升斜率及其灌注指数分别下降了1.52±0.15秒⁻¹(P<0.001)和0.02±0.01秒⁻¹(P<0.05),无透壁差异。肺组织、脾脏、肾脏和胸肌灌注也下降(P<0.05),但肝脏灌注得以维持。因此,在通过GPI进行肺过度充气期间,心输出量和包括心肌在内的器官灌注以及骨骼肌灌注均降低,但肝脏灌注得以维持。在GPI期间心输出量降低时,肝脏灌注似乎被优先保障。
