大鼠肾灌注压变化过程中肾髓质的渗透性高渗状态。
Osmotic hypertonicity of the renal medulla during changes in renal perfusion pressure in the rat.
作者信息
Dobrowolski L, Badzyńska B, Walkowska A, Sadowski J
机构信息
Laboratory of Renal and Body Fluid Physiology, Medical Research Centre of the Polish Academy of Sciences, Pawinskiego 5, 02-106 Warsaw, Poland.
出版信息
J Physiol. 1998 May 1;508 ( Pt 3)(Pt 3):929-35. doi: 10.1111/j.1469-7793.1998.929bp.x.
Abstract
- The relationship between renal perfusion pressure (RPP) and ion concentration in renal medulla was studied in anaesthetized rats. RPP was changed in steps within the pressure range 130-80 mmHg, while tissue electrical admittance (Y, index of interstitial ion concentration) and medullary and cortical blood flow (MBF and CBF; laser Doppler flowmetry) were measured, along with glomerular filtration rate (C in) and renal excretion. 2. With a RPP reduction from 130 to 120 mmHg, tissue Y remained stable; at 100 and 80 mmHg, Y was 5 and 17 % lower, respectively, than at 120 mmHg. 3. CBF fell less than RPP (partial autoregulation) in the range 130-100 mmHg only. MBF was autoregulated within 120-100 mmHg, but not above or below this range. 4. Each step of RPP reduction was followed by a decrease in sodium and water excretion (UNaV and V). The osmolality of excised inner medulla fragments was similar at 120 and 105 mmHg (586 +/- 45 and 618 +/- 35 mosmol (kg H2O)-1, respectively) but lower at 80 mmHg (434 +/- 31 mosmol (kg H2O)-1, P < 0.01); the ion concentration changed in parallel. 5. The data show that medullary hypertonicity was well preserved during RPP fluctuations within 130-100 mmHg, but not below this range. RPP-dependent changes of UNaV and V were not clearly associated with changes in solute concentration in medullary tissue.
摘要
- 在麻醉大鼠中研究了肾灌注压(RPP)与肾髓质离子浓度之间的关系。RPP在130 - 80 mmHg的压力范围内逐步变化,同时测量组织电阻抗(Y,间质离子浓度指标)、髓质和皮质血流量(MBF和CBF;激光多普勒血流仪),以及肾小球滤过率(Cin)和肾脏排泄量。2. 随着RPP从130 mmHg降至120 mmHg,组织Y保持稳定;在100 mmHg和80 mmHg时,Y分别比120 mmHg时低5%和17%。3. 仅在130 - 100 mmHg范围内,CBF下降幅度小于RPP(部分自动调节)。MBF在120 - 100 mmHg范围内自动调节,但在此范围之上或之下则不然。4. RPP每降低一步,钠和水排泄量(UNaV和V)都会减少。切除的内髓质碎片的渗透压在120 mmHg和105 mmHg时相似(分别为586±45和618±35 mosmol/(kg H2O)-1),但在80 mmHg时较低(434±31 mosmol/(kg H2O)-1,P<0.01);离子浓度平行变化。5. 数据表明,在130 - 100 mmHg范围内RPP波动期间,髓质高渗状态得到良好维持,但在此范围以下则不然。RPP依赖性的UNaV和V变化与髓质组织中溶质浓度的变化没有明显关联。
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