Thornton S J, Spielman D M, Pelc N J, Block W F, Crocker D E, Costa D P, LeBoeuf B J, Hochachka P W
Department of Zoology, University of British Columbia, Vancouver, BC, Canada V6T 1Z4.
Proc Natl Acad Sci U S A. 2001 Jul 31;98(16):9413-8. doi: 10.1073/pnas.151192098.
In phocid seals, an increase in hematocrit (Hct) accompanies diving and periods of apnea. The variability of phocid Hct suggests that the total red cell mass is not always in circulation, leading researchers to speculate on the means of blood volume partitioning. The histology and disproportionate size of the phocid spleen implicates it as the likely site for RBC storage. We used magnetic resonance imaging on Northern elephant seals to demonstrate a rapid contraction of the spleen and a simultaneous filling of the hepatic sinus during forced dives (P < 0.0001, R(2) = 0.97). The resulting images are clear evidence demonstrating a functional relationship between the spleen and hepatic sinus. The transfer of blood from the spleen to the sinus provides an explanation for the disparity between the timing of diving-induced splenic contraction ( approximately 1-3 min) and the occurrence of peak Hct (15-25 min). Facial immersion was accompanied by an immediate and profound splenic contraction, with no further significant decrease in splenic volume after min 2 (Tukey-Kramer HSD, P = 0.05). At the conclusion of the dive, the spleen had contracted to 16% of its predive volume (mean resting splenic volume = 3,141 ml +/- 68.01 ml; 3.54% of body mass). In the postdive period, the spleen required 18-22 min to achieve resting volume, indicating that this species may not have sufficient time to refill the spleen when routinely diving at sea, which is virtually continuous with interdive surface intervals between 1 and 3 min.
在海狗中,红细胞压积(Hct)的增加伴随着潜水和呼吸暂停期。海狗Hct的变异性表明,总的红细胞质量并非总是处于循环状态,这使得研究人员对血容量分配方式进行了推测。海狗脾脏的组织学特征和不成比例的大小表明它可能是红细胞储存的部位。我们对北海象海豹进行了磁共振成像,以证明在强制潜水期间脾脏迅速收缩,同时肝血窦充盈(P < 0.0001,R(2) = 0.97)。所得图像清楚地证明了脾脏与肝血窦之间的功能关系。血液从脾脏转移到血窦,解释了潜水引起的脾脏收缩时间(约1 - 3分钟)与Hct峰值出现时间(15 - 25分钟)之间的差异。面部浸入伴随着脾脏立即且显著的收缩,2分钟后脾脏体积没有进一步显著减小(Tukey - Kramer HSD,P = 0.05)。潜水结束时,脾脏已收缩至潜水前体积的16%(平均静息脾脏体积 = 3141 ml ± 68.01 ml;占体重的3.54%)。在潜水后阶段,脾脏需要18 - 22分钟才能达到静息体积,这表明该物种在海上进行常规潜水时可能没有足够时间重新充盈脾脏,因为潜水之间的水面间隔实际上是连续的,在1到3分钟之间。