van Essen G J, Vernooij J C M, Heesterbeek J A P, Anjema D, Merkus D, Duncker D J
TeleMetronics Biometry B.V., Bioscience Center Lelystad, The Netherlands.
J Anim Sci. 2009 Jun;87(6):1991-7. doi: 10.2527/jas.2009-1860. Epub 2009 Feb 27.
In view of the remarkable decrease of the relative heart weight and the relative blood volume in growing pigs, we investigated whether cardiac output (CO) and stroke volume (SV) of modern growing pigs are proportional to body mass (M), as predicted by allometric scaling laws: CO (or SV) = a.M(b), in which b is a multitude of 0.25 (quarter power scaling law). Specifically, we tested the hypothesis that CO scales with M to the power of 0.75 (CO = a.M(0.75)) and SV scales with M to the power of 1.00 (SV = a.M(1.0)) and investigated whether these relations persisted during increased cardiac stress. For this purpose, 2 groups of pigs (group 1 of 57 +/- 3 kg in Lelystad, and group 2 of 28 +/- 1 kg in Rotterdam) were chronically instrumented with a flow probe to measure CO and SV; instrumented pigs were studied at rest and during strenuous exercise (at approximately 85% of maximum heart rate). Analysis of both groups of pigs (analyzed separately or combined) under resting conditions demonstrated that the 95% confidence intervals of power-coefficient b for CO encompassed 0.75 and for SV encompassed 1.0. During exercise, similar results were obtained, except for SV in group 2, in which the 95% confidence limits remained below 1.0, which may have been due to the relatively small range of BW in group 2. These observations indicate that CO and SV of growing pigs with M less than 75 kg are still proportional to M, even during strenuous exercise, and that CO and SV scale with M according to the quarter power scaling laws. In conclusion, the concerns about disproportional growth and development of modern growing pigs with BW up to 75 kg were not confirmed by the present study.
鉴于生长猪的相对心脏重量和相对血容量显著下降,我们研究了现代生长猪的心输出量(CO)和每搏输出量(SV)是否如异速生长比例定律所预测的那样与体重(M)成正比:CO(或SV)=a·M^b,其中b为0.25的倍数(四分之一次幂比例定律)。具体而言,我们检验了以下假设:CO与M的0.75次幂成正比(CO = a·M^0.75),SV与M的1.0次幂成正比(SV = a·M^1.0),并研究了在心脏应激增加期间这些关系是否持续存在。为此,两组猪(莱利斯塔德的第1组,体重57±3 kg;鹿特丹的第2组,体重28±1 kg)长期植入流量探头以测量CO和SV;对植入探头的猪在静息状态和剧烈运动时(约为最大心率的85%)进行研究。对两组猪在静息条件下(分别分析或合并分析)的分析表明,CO的幂系数b的95%置信区间包含0.75,SV的95%置信区间包含1.0。在运动期间,除第2组的SV外,也得到了类似结果,第2组的SV的95%置信限仍低于1.0,这可能是由于第2组猪的体重范围相对较小。这些观察结果表明,体重小于75 kg的生长猪的CO和SV即使在剧烈运动期间仍与M成正比,并且CO和SV根据四分之一次幂比例定律与M成比例。总之,本研究未证实对体重达75 kg的现代生长猪生长发育不成比例的担忧。
