O'morchoe C C, Omorchoe P J, Donati E J
Am J Physiol. 1975 Aug;229(2):416-21. doi: 10.1152/ajplegacy.1975.229.2.416.
The sites of origin of renal lymph were studied by analysis of simultaneously collected samples of lymph and plasma. The samples included renal hilar (HL) and capsular lymph (CL), thoracic duct lymph (TD), renal venous (RVP) and arterial plasma (AP), and were analyzed for Na+, Cl-, K+, urea, glucose, inulin, and PAH concentrations. The glucose concentrations of HL (76 mg/100 ml, SE +/- 1.9), and CL (92 mg/100 ml, SE +/- 2.5) were significantly different (P less than 0.01) from that of RVP (86 mg/100 ml, SE +/- 2.2). Concentrations of both inulin and PAH in CL and HL fell between the AP and RVP values. The concentration of inulin in CL (CL/RVP = 1.27) exceeded that in HL (HL/RVP = 1.10), but no such difference was detected for PAH. The Na+ (152 meq/liter) and Cl- (129 meq/liter) concentrations in HL were significantly (P less than 0.01) higher than those in CL (Na+ = 148 meq/liter; Cl- = 120 meq/liter), in TD (Na+ = 146 meq/liter; Cl- = 121 meq/liter), and in RVP (Na+ = 144 meq/liter; Cl- = 114 meq/liter. These differences remained highly significant when the electrolyte concentrations were converted to milliequivalents per kilogram H2O. In contrast, no significant differences were detected between the concentrations of urea in the various fluids sampled. It is concluded that CL and HL do not drain a perfectly homogeneous intrarenal pool, and that they do not equilibrate with RVP or AP within the kidney. The results also indicate that CL and HL derive a small component from tubular reabsorbate; that for CL stemming from the cortex, and that for HL from the deeper cortex and outer medulla.
通过对同时采集的淋巴液和血浆样本进行分析,研究了肾淋巴的起源部位。样本包括肾门(HL)和包膜淋巴(CL)、胸导管淋巴(TD)、肾静脉血浆(RVP)和动脉血浆(AP),并对其钠、氯、钾、尿素、葡萄糖、菊粉和对氨基马尿酸(PAH)浓度进行了分析。HL(76毫克/100毫升,标准误±1.9)和CL(92毫克/100毫升,标准误±2.5)的葡萄糖浓度与RVP(86毫克/100毫升,标准误±2.2)的葡萄糖浓度有显著差异(P<0.01)。CL和HL中菊粉和PAH的浓度介于AP和RVP的值之间。CL中菊粉的浓度(CL/RVP = 1.27)超过HL中菊粉的浓度(HL/RVP = 1.10),但PAH未检测到这种差异。HL中的钠(152毫当量/升)和氯(129毫当量/升)浓度显著高于CL(钠 = 148毫当量/升;氯 = 120毫当量/升)、TD(钠 = 146毫当量/升;氯 = 121毫当量/升)和RVP(钠 = 144毫当量/升;氯 = 114毫当量/升)中的浓度(P<0.01)。当将电解质浓度换算为每千克H2O的毫当量时,这些差异仍然非常显著。相比之下,在采集的各种液体中,尿素浓度未检测到显著差异。得出的结论是,CL和HL并非引流完全均匀的肾内池,并且它们在肾脏内与RVP或AP未达到平衡。结果还表明,CL和HL有一小部分来自肾小管重吸收物;CL来自皮质,HL来自更深层的皮质和外髓质。
