Department of Anesthesia and Critical Care, University Hospital Carl Gustav Carus, Technische Universität Dresden, Dresden, Germany.
J Appl Physiol (1985). 2010 Feb;108(2):422-9. doi: 10.1152/japplphysiol.91257.2008. Epub 2009 Nov 19.
Using small animal PET with (68)Ga-radiolabeled human albumin microspheres (Ga-68-microspheres), we investigated the effect of posture on regional pulmonary blood flow (PBF) in normal rats. This in vivo method is noninvasive and quantitative, and it allows for repeated longitudinal measurements. The purpose of the experiment was to quantify spatial differences in PBF in small animals in different postures. Two studies were performed in anesthetized, spontaneously breathing Wistar rats. Study 1 was designed to determine PBF in the prone and supine positions. Ga-68-microspheres were given to five prone and eight supine animals. We found that PBF increased in dorsal regions of supine animals (0.75) more than in prone animals (0.70; P = 0.037), according to a steeper vertical gradient of flow in supine than in prone animals. No differences in spatial heterogeneity were detected. Study 2 was designed to determine the effects of tissue distribution on PBF measurements. Because microspheres remained fixed in the lung, PET was performed on animals in the position in which they received Ga-68-microsphere injections and thereafter in the opposite posture. The distribution of PBF showed a preference for dorsal regions in both positions, but the distribution was dependent on the position during administration of the microspheres. We conclude that PET using Ga-68-microspheres can detect and quantify regional PBF in animals as small as the rat. PBF distributions differed between the prone and supine postures and were influenced by the distribution of lung tissue within the thorax.
使用小动物正电子发射断层扫描(PET)与(68)Ga 放射性标记的人白蛋白微球(Ga-68 微球),我们研究了体位对正常大鼠肺局部血流(PBF)的影响。这种体内方法是无创和定量的,允许进行重复的纵向测量。实验的目的是量化不同体位下小动物的 PBF 空间差异。在麻醉、自主呼吸的 Wistar 大鼠中进行了两项研究。研究 1 旨在确定俯卧位和仰卧位的 PBF。给五只俯卧和八只仰卧的动物注射 Ga-68 微球。我们发现,仰卧动物的背侧区域的 PBF 增加(0.75)比俯卧动物更多(0.70;P = 0.037),这是由于仰卧动物的血流垂直梯度比俯卧动物更陡峭。未检测到空间异质性差异。研究 2 旨在确定组织分布对 PBF 测量的影响。由于微球在肺部固定,因此在动物接受 Ga-68 微球注射的位置以及随后的相反位置进行 PET。PBF 的分布在两种位置都优先于背侧区域,但分布取决于微球给药时的位置。我们得出结论,使用 Ga-68 微球的 PET 可以检测和量化小动物(如大鼠)的局部 PBF。俯卧位和仰卧位之间的 PBF 分布不同,并且受胸腔内肺组织分布的影响。
