INDEX 



'777 



systolic peak, 832 



systolic profile, 825 

 derivation of Bramwell and Hill equa- 

 tion, 816 

 factors affecting, 819 

 Fourier analysis of, 817 

 normal and pathological, 859 

 origin of, 815 



phase lag with fluid displacement, 817 

 propagation 



hypothermia and, 827 



resonance, 826 



standing waves, 826 

 secondary causes, 839 

 systolic length and, 817 

 velocity 



diastolic pressure relation and, 817 



heart rate and, 818 



of various parts, 819 



stiffness modulus and, 819 

 wall distensibility and, 815 

 Pumps 



characteristics, to duplicate ventricular 



contraction, 800 

 kinetic, 760 



positive displacement, 760 

 reciprocating, definition, 760 

 rotary, 760 



volume, left ventricle as, 844 

 Purine derivatives 



inotropic effects of, 1 545 

 Purkinje cells 



function, 763 

 Pyelonephritis 



renal lymphatic pressure and, 1058 

 Pyrimidine derivatives 

 inotropic effects of, 1545 



Q wave 



interval, 790 



Rabbit 



blood pressure, age and, 1643 

 cardiac glycogen before birth, 1638 

 ear 



arteriovenous communications, 1 255 



microcirculation in, 898 



plexus of regenerated vessels in, 921 

 hepatic blood flow in, 1405 

 pulmonary vessels in, 1674 

 renal clearance in, 1483 

 uterine vasculature, pregnancy and, 



'597 

 Race 



peripheral vascular disease and, 12 17 

 Radial flow 



equation for, 842 

 Raffinose 



diffusion of, 1002, 1009, 1010 



filtration rate, 1006 



permeability of muscle capillaries to, 

 1013 



Rapela, C. E. 



Resistance (conductance) and capaci- 

 tance phenomena in terminal vas- 

 cular beds, 935-960 

 Rat 



capillary blood pressure in, 965 

 hepatic blood flow in, 1405 

 mesoappendix 



circulation of, 920 

 for studies of microcirculation, 894 

 osmotic pressure of plasma proteins in, 



965 



protein osmotic pressure in, 965 



pulmonary vessels in, 1674 



renal clearance in, 1483 

 Raynaud's syndrome 



basic defect, 1227, 1229 



blood catecholamines in, 1229 



capillarioscope studies in, 1228 



capillary 



changes in, 1228 

 pressure and, 968 



changes in hands, 1227 



clinical characteristics, 1226 



diagnosis of, 1226 



differential diagnosis, 1231 



digital blood pressure and, 1229 



evidence for local defect, 1228 



localization of lesions, 1226 



mechanisms in, 1227 



monoamine oxidase in digital arteries, 

 1229 



secondary characteristics, 1 230 



sensitivity to cold in, 1228 



symptoms, 1226, 1227 



sympathectomy in, 1228 

 Reactance flow patterns 



definition, 853 

 Rein's thermostromuhr 



principle and discussion of, 1283 

 Remington, J. W. 



The physiology of the aorta and major 

 arteries, 799-838 

 Renal artery 



arterial flow pulse in, 849 



circumference, 846 



mean peak 

 flow, 846 

 velocity, 846 

 Renal blood flow 



abdominal aortic pressure and, 852 



acidosis and, 1504 



adrenergic 

 control, 1485 

 response, 951 



anesthetic agents and, 1488 



apresoline and, 1488 



autonomy of, 1 484 



calculated from clearance data, 1 480 



cholinergic response, 951 



CNS control of, 1 485 



computation of, 854 



critique of clearance method, 1481 

 dominant hydraulic elements, 852 

 epinephrine and, 950 

 exercise and, 1501 



in cardiac patients, [502 

 extrinsic regulation 1483-1489 

 factors affecting, 1482 

 ganglionic blocking agents, i486 

 heat turnover and, 1476 

 hemorrhagic hypotension and, 1505 

 hypercapnia and, 1504 

 hypoxia, ischemia and, 1503 

 in vessels, excluding organs, 1293 

 in young animals, 1644 

 measurement of, 1479- 1483 

 neurogenic control, 1 483 

 nitrous oxide method, 1 480 

 orthostatic hypotension and, 1502 

 posture, 1502 



renal clearance principle and, 1479 

 response in physiological stress, 1501- 



'5°7 

 shock and, 1505 

 sympathomimetic drugs, 1 486 

 tourniquet and, 1506 

 traumatic 



injuries in man and, 1506 



shock and, 1506 



vascular compensation in man, tilting 



and, 1503 



Renal circulation 



anatomy, 1 489-1 497 



arterial system, 1458 



dog, 1459 

 arteries, volume of muscle in wall, 1465 

 arteriovenous anastomoses, 1460 

 autoregulation, 947 



cell separation hypothesis, 1491 



decapsulation, 1494 



factors impairing, 1 496 



in vascular beds, 944 



intrarenal reflexes, 1490 



mechanism of, 1490 



metabolic theory, 1490 



myogenic theory, 1494, 1496 



perfusion pressure and, 1494, 1495, 

 1496 



tissue pressure theory, 1492, 1493 



viscosity theory, 1491 

 capillary pressures in, 965 

 cell separation hypothesis, 1492 

 cortical, 1460 



critical closing pressure, 1 476 

 distribution of cells and plasma, 1473 

 distribution of osmotic constituents, 



1 469-1 470, 1472 

 functional architecture, 1458- 1466 

 glomerular, 1461 

 intrarenal hematocrit, 1470 

 juxtamedullary zone, 1464 

 medullary 



and cortical transit time, 1500 



