Leotta Eros, Patejunas Gerald, Murphy Glenn, Szokol Joseph, McGregor Leslie, Carbray JoAnn, Hamawy Adam, Winchester David, Hackett Neil, Crystal Ronald, Rosengart Todd
Evanston Northwestern Healthcare, Evanston, IL 60201, USA.
J Thorac Cardiovasc Surg. 2002 Jun;123(6):1101-13. doi: 10.1067/mtc.2002.121044.
Myocardial ischemia is the most common cause of congestive heart failure. Angiogenic therapy has recently been demonstrated to enhance myocardial perfusion in the ischemic setting. We therefore hypothesized that administration of adenovirus encoding for vascular endothelial growth factor could be used to enhance myocardial function in a pacing-induced model of heart failure.
Yorkshire swine underwent a left thoracotomy with placement of a ventricular epicardial pacing system. Animals received adenovirus coding either for the 121-amino-acid isoform of vascular endothelial growth factor (Ad(CU)VEGF121.1 group, n = 8) or a null vector coding for no genes (AdNull group, n = 8). The adenovirus was administered in the left ventricular free wall as 10 transepicardial injections of 100 microL each (total dose of 10(11) particle units). After a 1-week recovery period, animals were paced at a rate of 230 beats/min for 7 days to induce heart failure. Transthoracic echocardiographic and sonomicrometric measurements were performed before pacing (baseline), on termination of pacing (day 0), and then weekly for 3 weeks.
The fractional area change was significantly decreased in AdNull animals at day 0 after pacing compared with the Ad(CU)VEGF121.1 animals (29% +/- 14% vs 46% +/- 8%, P =.02). The fractional area change recovered to baseline values within 7 days in the Ad(CU)VEGF121.1 animals (62% +/- 7%) but remained significantly impaired in the AdNull group compared with that in the Ad(CU)VEGF121.1 animals up to day 21 (P =.04). Similarly, fractional wall thickening demonstrated a decrease at day 0 after pacing that was greater (P <.05) in the AdNull group compared with that in the Ad(CU)VEGF121.1 group in 5 of 6 segments. Fractional wall thickening returned to levels approximating prepacing values in all segments within 7 days in the Ad(CU)VEGF121.1 group but remained significantly impaired compared with prepacing fractional wall thickening (P <.05) in the AdNull group in 5 of 6 segments up to day 21 after pacing. Segmental shortening, as measured by sonomicrometry, also was significantly decreased at day 7 in the AdNull group compared with that in the Ad(CU)VEGF121.1 group (10% +/- 4% vs 16% +/- 3%, P =.004) and remained significantly impaired (P <.05) in the AdNull group at day 14 and 21 when compared with baseline values.
Preservation of cardiac performance and a more rapid recovery of myocardial function can be achieved in a model of pacing-induced cardiomyopathy with adenovirus-mediated administration of vascular endothelial growth factor compared with that seen in a null virus control group. These data suggest that angiogenic therapy may be useful clinically in treating cardiomyopathy.
心肌缺血是充血性心力衰竭最常见的病因。血管生成疗法最近已被证明可在缺血情况下增强心肌灌注。因此,我们推测,在起搏诱导的心力衰竭模型中,给予编码血管内皮生长因子的腺病毒可用于增强心肌功能。
约克郡猪接受左胸切开术并植入心室心外膜起搏系统。动物接受编码血管内皮生长因子121个氨基酸异构体的腺病毒(Ad(CU)VEGF121.1组,n = 8)或不编码任何基因的空载体(AdNull组,n = 8)。腺病毒以每次100微升的10次经心外膜注射的方式注入左心室游离壁(总剂量为10(11)个颗粒单位)。经过1周的恢复期后,动物以230次/分钟的频率起搏7天以诱导心力衰竭。在起搏前(基线)、起搏结束时(第0天)以及随后3周每周进行经胸超声心动图和超声测量。
与Ad(CU)VEGF121.1组动物相比,起搏后第0天AdNull组动物的面积变化分数显著降低(29%±14%对46%±8%,P =.02)。Ad(CU)VEGF121.1组动物的面积变化分数在7天内恢复到基线值(62%±7%),但与Ad(CU)VEGF121.1组动物相比,直到第21天AdNull组仍显著受损(P =.04)。同样,在6个节段中的5个节段,起搏后第0天的壁增厚分数显示出降低,AdNull组比Ad(CU)VEGF121.1组更大(P <.05)。Ad(CU)VEGF121.1组所有节段的壁增厚分数在7天内恢复到接近起搏前的值,但与起搏前相比,直到起搏后第21天,AdNull组6个节段中的5个节段仍显著受损(P <.05)。通过超声测量的节段缩短在起搏后第7天AdNull组也比Ad(CU)VEGF121.1组显著降低(10%±4%对16%±3%,P =.004),并且与基线值相比,AdNull组在第14天和第21天仍显著受损(P <.05)。
与空病毒对照组相比,在起搏诱导的心肌病模型中,通过腺病毒介导给予血管内皮生长因子可实现心脏功能的保留和心肌功能更快的恢复。这些数据表明血管生成疗法在临床上可能对治疗心肌病有用。
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