CAPILLARY BLOOD PRESSURE IN MAN. DIRECT MEASUREMENTS IN THE DIGITS OF NORMAL AND HYPERTENSIVE SUBJECTS DURING VASOCONSTRICTION AND VASODILATATION VARIOUSLY INDUCED Ludwig W. Eichna, James Bordley III J Clin Invest. 1942; 21(6):711-729. https://doi.org/10.1172/JCI101347. Research Article Find the latest version: http://jci.me/101347-pdf
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VASODILATATION VARIOUSLY INDUCED DURING ......CAPILLARY BLOOD PRESSURE IN MAN. DIRECT MEASUREMENTS IN THE DIGITS OF NORMAL AND HYPERTENSIVE SUBJECTS DURING VASOCONSTRICTION AND VASODILATATION
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CAPILLARY BLOOD PRESSURE IN MAN.DIRECT MEASUREMENTS IN THE DIGITS OFNORMAL AND HYPERTENSIVE SUBJECTSDURING VASOCONSTRICTION ANDVASODILATATION VARIOUSLY INDUCED
(From the Department of Medicine, The Johns Hopkins University School of Medicine,Baltimore)
(Received for publication June 1, 1942)
The normal cardiac output (1) in essentialhypertension implies a normal "total" blood flowto the entire body. The elevated arterial pres-sure has, therefore, been attributed to an increasein the "total" resistance of the vascular system.The arterioles are considered to contribute themajor portion of this increased resistance.
Correlated determinations of arterial and capil-lary blood pressures in normal and hypertensivesubjects should reveal the nature and location ofthe vascular resistance in hypertension. In hy-pertensive states, the capillary blood pressure hasbeen measured (2 to 5), but by indirect methods,the reliability of which has been questioned (6).It seemed advisable, therefore, to study the capil-lary blood pressure of normal and hypertensivesubjects by the accurate, direct, micro-injectionmethod (Landis) (7), and to make the observa-tion not only under resting conditions but alsoduring influences known to alter the circulationin the areas under study.
METHODS
The capillary blood pressure was determined in thenail-folds of the fingers. The direct micro-injectionmethod (Landis) (7, 6) was employed throughout.
General. All of the methods, conditions, and precau-tions, fully described in a previous communication (8)under the general category of methods, were rigidly main-tained in the present study. This pertained to equipment,surroundings, and subjects.
Particular. Only pressures obtained when the bloodflow in the capillaries remained visibly unaltered arerecorded as capillary blood pressures. At times, capil-laries were so pierced that the micropipette obstructedcompletely the lumen of the capillary. Blood flow
1 Supported by a grant from The Commonwealth Fundfor the study of essential hypertension.
2A preliminary report of these observations was, readby title at the annual meeting of The American Societyfor Clinical Investigation, May 5, 1941 (J. Cin. Invest.,1941, 20, 458).
through the capillary ceased. Blood now entered themicropipette from one limb of the capillary and wasexpelled into the same limb when pressure in the micro-pipette was raised. The micropipette and capillary-limbacted jointly as a tube leading to the next most adjacentblood channel, arteriole, or venule. Equilibrium betweenmicropipette-pressure and capillary blood pressure underthese circumstances was believed to indicate the pressurein the nearest arteriole or venule. Readings obtainedunder these conditions are termed "arteriole" blood pres-sure and "venule" blood pressure, respectively.
Each value of capillary blood pressure indicated thepressure in a single capillary, and was obtained by aver-aging the individual values of a series of readings madeduring a single continuous observation on that capillary.Single readings which could not be checked by successivereadings have been discarded as lacking sufficient relia-bility. Each value of arteriole or venule blood pressurewas obtained in a similar manner.
Observations were made on 3 groups of subjects. (1)Subjects with normal arterial pressures: normal indi-viduals and patients convalescing from illnesses not as-sociated with circulatory disturbances, hereafter termednormal subjects. (2) Patients with elevated arterialpressures: excepting 1 patient with acute nephritis, thesesubjects had essential hypertension; the majority wereof the benign type, several were of the malignant type.(3) Subjects with low arterial pressure, either in asso-ciation with their systemic illnesses, or as a result oflocal arterial disease, were included in the normal group.In no patient in any group, was there evidence of con-gestive heart failure or of an increase in venous pressure.
RESULTS
In both normal and hypertensive subjects, con-siderable variation in digital capillary blood pres-sure was found; not only from individual to indi-vidual but also in the same subject from day today and even in adjacent capillaries of the samenail-fold during a single experiment. Duringmoderate vasodilatation of the digital circulation,alterations in capillary blood pressure were occa-sionally observed during a single series of readingsthroughout which the micropipette remained inthe same location in a given capillary.- Similar
711
LUDWIG W. EICHNA AND JAMES BORDLEY, III
TABLE I
Capilary blood pressure during two series of measurements in the same location of the same capillaryduring a single experimnt
Location Capillary blood pressureSubject Diag.oob Sidn tem- Arterial where capillary Interval be-(Sub age) O perature presure blood pressre tween readings
was measured First series Second sies Difference
° C. mm. Hg minuAs mm. Hg mm. Hg mm. HiM. E. Normal 33.5 116/78 Summit 26 25.5 33 7.5
Arterial pressure and skin temperature essentially unaltered during the two series of reading.* In this eiment skin temperature rose from 30.5° C. to 32.2° C. and arterial pressure from 166/114 to 174/120
between the two series of readings.
variations also occurred during reflex vasodilata-tion, a state considered to be associated with arelatively constant digital circulation. Repiercingthe s.ame capillary in the same location, at intervalsthroughout a single experiment, yielded capillaryblood pressures which were usually comparable(Table I). At times large differences were ob-served between determinations, even when aneffort was made to keep the digital circulationconstant (Table I).
Effect of increased local venous pressureA previous study (6) confirmed the observa-
tions of Landis (7), that induced increases inlocal venous pressure were accompanied by risesin capillary blood pressure to values which ex-ceeded the venous pressure.
Induding the cases already reported (6), thecapillary blood pressure was measured in the samelocation, in the same capillary, at normal andelevated digital venous pressures, in 22 subjectswith varying arterial pressures (Table II). Inall subjects, the capillary blood pressure in all lo-
cations of the capillary rose, in most instances toexceed local venous pressure by 1 mm. Hg to 15mm. Hg. The response of the capillary bloodpressure to increases in venous pressure wassimilar in both hypertensive and normal subjects(Table II).
Effect of vasoconstriction in the digitsAnother study (8) showed that neurogenic
digital vasoconstrictions were accompanied by de-creases in digital capillary blood pressure, whichin 4 hypertensive patients were of approximatelythe same duration and magnitude as in 3 normalsubjects (Figure 1). Neither reflex vasodilata-tion nor the local hyperemia induced by the intra-dermal injection of histamine acid phosphate(1: 100 in salt solution) prevented these falls incapillary blood pressure in normal or hypertensivesubjects (8).
Effect of digital skin temperatureNo determinations were made of the capillary
blood pressure in the same capillary during sig-
712
CAPILLARY BLOODPRESSUREIN HYPERTENSIVESUBJECTS
nificant changes in digital skin temperature.However, the temperature of the digital pad was
determined at the time of each capillary bloodpressure measurement. Therefore, some correla-fion of these two factors is possible (Figures 2and 3).
With the hands moderately warm, capillaryblood pressure seemed unaffected by digital skintemperature. At all skin temperatures between270 C. and 350 C., the capillary blood pressuresin all locations of the capillary scattered widely,and approximately equally, in both normal (Fig-ure 2) and hypertensive (Figure 3) subjects. Inboth groups of subjects, the degree of variationwas much the same at the lower as at the highertemperatures within this range. At the warmer
skin temperatures, slightly higher capillary bloodpressures were obtained in both the arteriolarand venous limbs of the hypertensive patients thanin the normal subjects. These differences were
not definite. Only at very low skin temperaturesdid the digital capillary blood pressure fall belowthe limits obtained during moderate digital vaso-
dilatation. For example, in one hypertensive sub-
ject, the capillary blood pressure in the arteriolarlimb fell to 7.5 mm. Hg when the digital skintemperature was 24.80 C. Blood flow throughthe capillary at this time was abnormally slow.
Gradient of fall of pressure in the capillaryThe capillary blood pressure was determined in
60 subjects with normal arterial pressures, in 46
TABLE II
The effcd of locally increased venous pressure upon the blood pressure in the same capillary
Capillary blood Difference be-Location In pressure tween capillary
Subject trW SE capillary bloodesrem(Sc )u DiagZis Aressure Skin where Cuff pressure* actffuS
measured Initial venous dunng venousconetion tion
mm. Hg ° C. mm. Hg mm. Hg mm. Hi mm. HgI. B. Normal 116/72 31.1 Arteriolar limb 19 54 to 60 44 +10
N. P. Hypertension t1 174/110 31.5 Venous limb 14 77 80 - 3.0(F, 23) l_lJ. P. Hypertension 236/146 30.3 Arteriolar limb 49 82 81 + 1.0
(M,.36)
* Local venous pressure usually fell several mm. Hg below cuff pressure. Figures in parentheses give the actuallydetermined venous pressure at the cuff pressure indicated by the immediately preceding figure.
patients with essential hypertension, and in one pa-tient with acute nephritis. In the "normal" group,the arterial pressure averaged 119/74 (mean pres-sure 96 mm. Hg). Systolic pressure ranged from80 mm.- Hg to 156 mm. Hg, and diastolic pressure,from 50 mm. Hg to 98 mm. Hg. In the hyper-tensive group, the average arterial pressure was188/124 (mean pressure 156 mm. Hg); the sys-tolic pressure varied from 132 mm. Hg to 254mm. Hg, and the diastolic pressure, from 96 inm.Hg to 186 mm. Hg. In one subject with multipleaneurysms, the arterial pressure was unobtainable.
In both groups of subjects, the wide variationsin the capillary blood pressure for the same loca-
tion in the capillary led to considerable overlap-ping of the values for arteriolar and venous limbs.Nevertheless, the values for corresponding loca-tions in the capillary were approximately the samnein both the hypertensive and normal subjects (Ta-ble III). The scattering and overlapping wereless marked when determinations were made dur-ing a single experiment on adjacent capillaries.At such times, the values for the two limbs of thecapillaries were both in the same range, with thearteriolar limb pressure usually exceeding slightlythe venous limb pressure.
Assuming the average values for each locationin the capillary to be representative of the capil-
714
CAPILLARY BLOODPRESSUREIN HYPERTENSIVESUBJECTS
MEANARTERALPRESURE IL tHFIG. 1. CHANGESIN CAPILLARY BLOOD PREssuRE IN
THE SAME CAPILLARY IN NORMALAND HYPERTENSIVESUBJECTS FOLLOWING NEUROGENIC VASOCONsmIcTORSTIMULI
Following the stimuli the pressures always fell, andapproximately equally in both groups of subjects.Construction of charts
All charts. Ordinates; always capillary blood pressure
in mm. Hg. Abscissae; usually mean arterial pressure
in mm. Hg, except Figures 2, 3 (skin temperature 'C.).The long, vertical, dotted line indicates the upper limitof normal mean arterial pressure.
Scatter charts. (Figures 2, 3, 4, 6, 7, 9.) Each dotrepresents the average digital capillary blood pressure inthe designated location in a single capillary at the mean
arterial pressure or skin temperature indicated by theabscissa. Each heavy horizontal arrow and number abovethe abscissa line indicates the average of all of the pres-
sures represented by the corresponding dots.Charts of changes in single capillaries. (Figures 1, 8.)
Digital capillary blood pressures in the same location ofthe same capillary are connected by vertical lines. Whenthe lines are solid, the pressure rose from the lower tothe higher value; when dotted, the pressure fell fromthe higher to the lower value. A
lary blood pressure in that location for the group,
then the gradient of fall of pressure from arteriolarlimb to venous limb was 8.7 mm. Hg (30.6 mm.
Hg to 21.9 mm. Hg) in the "normal" subjects,and 13.1 mm. Hg (35.9 mm. Hg to 22.8 mm.
Hg) in the hypertensive subjects. An increase
of 50.5 per cent in the hypertensive subjects. But,when the gradient of pressure was measured inthe same capillary, no significant difference wasfound in the gradient between corresponding loca-tions of the capillary in 9 normal and 12 hyper-tensive subjects (Table IV).
In both normal and hypertensive subjects, thegradient of fall of pressure from "arteriole" to"venule" was more marked than the gradient fromarteriolar limb to venous limb of the capillary(Figure 4).
The average arteriole-venule gradient for thenormal subjects was 38.1 mm. Hg, for the hyper-tensive subjects 34.9 mm. Hg. In a few in-stances, both arteriole and venule blood pressurein the hypertensive subjects exceeded the highestvalues obtained in normal subjects. There wasno correlation between arteriole or venule bloodpressure and the mean arterial pressure.
Digital capillary blood pressure during proceduresdesigned to dilate the arterioles
Reflex vasodilatation. Although reflex vaso-dilatation is associated with a constant, reprodu-cible, and maximal digital skin temperature, digi-tal capillary blood pressure determined during thisstate still varied widely in both normal and hyper-tensive subjects (Figure 5). Even during a sin-gle experiment, throughout which digital skintemperature was maintained at the maximumlevel, considerable variation persisted in the digitalcapillary blood pressures measured in the samelocation of adjacent capillaries of a given indi-vidual. The limits of this variation and the aver-age capillary blood pressures for both arteriolarand venous limbs were practically the same in thefew hypertensive and normal subjects studied(Figure 5). Moreover, the range of variationduring maximal reflex vasodilatation approxi-mated that obtained during moderate digitalvasodilatation.
During maximal reflex vasodilatation the aver-age capillary blood pressure in the venous limbexceeded values obtained during the resting state,but the average pressure in the arteriolar limb re-mained unchanged (Figures 5, 2, and 3). As aresult, the gradient of pressure from arteriolarlimb to venous limb of the capillary became lesssteep: 2 mm. Hg in the normal subjects, prac-tically zero in the hypertensive subjects. It is
715
LUDWIG W. EICHNA AND JAMES BORDLEY, III
known that the digital blood flow during this stateis, nevertheless, much increased.
Reactive hyperemia. The digital capillary bloodpressure was always determined in the same loca-tion in the same capillary during reactive hyper-emia as it had been during the resting state. Withcirculatory arrest, the blood continued to flow for5 to 10 seconds, then stopped. It gradually be-came dark blue, more compact and seemingly moreviscid, as indicated by its more sluggish movementin, and adherence to, the micropipette tip. Ap-parently, the red blood cells packed together, pre-sumably as a result of the loss of plasma fluid.In the summits of 2 capillaries of a- patient withRaynaud's disease, the digital capillary blood pres-sure at this time measured 11 mm. Hg and 13mm. Hg.
On release of the circulation, the mass of packedred blood cells tended to adhere to the wall of thecapillary and, at times, several seconds elapsed
u.
Ud ARTRIfOLAR LIME
before the mass was pushed onward and bloodflow became reestablished. Sticking of the eryth-rocytes to the wall of the capillary was observedmost frequently in those capillaries which hadbeen previously pierced several times. Occasion-ally, it was necessary to prod the tissue about thecapillary with the micropipette before the redblood cells moved forward and swift blood flowreturned to the capillary. At times, even thisprocedure did not suffice, and the capillary re-mained "permanently" in stasis. During reactivehyperemia, the capillaries appeared very pink butnot particularly dilated.
The above findings were similar in normal andhypertensive subjects.
In the few studies on the normal. sized capil-laries of normal and hypertensive subjects, digitalcapillary blood pressure during reactive hyperemiawas essentially the same as during the resting state(Table V). The differences between pressures
FIG. 2. DIGITAL CAPILLARY BLOOD PRESSuRE IN DIFFRENT LOCATIONS IN THE CAPILLARY AT VARYING LEvmLs OFDIGITAL SKIN TEMPERTURE. SUBJECrTS WITH NORMALARTERIAL PRESSURE
The range of pressures is the same at both low and high skin temperatures.
FIG. 3. DIGITAL CAPILLARY BLoOD PREssURE IN DIFFRNT LOCATIONS IN THE CAPILLARY AT VARYING LzvEvs OFDIGITAL SKIN TEMPERATURE HYPERTENSIVE SUBJECTS
The pressures vary over the same range at both low and high temperatures.
obtained during the two states did not exceed - 4mm. Hg. to + 1.5 mm. Hg (Table V).
Difficulty in piercing quickly normal sized capil-laries during the early period of reactive hyper-emia (transitory at best) led to studies on themore easily pierced abnormally large digital capil-laries of patients with Raynaud's disease.
In the summits and venous limbs of 5 capil-laries in 2 subjects with Raynaud's disease, thecapillary blood pressure during reactive hyperemiadiffered from the resting values by only - 1.5mm. Hg to + 5.5 mm. Hg (average 2.5 mm. Hg),usually in the positive direction (Table VI).This kntained whether the reactive hyperemiainvolve he entire forearm or the digit alone.
After pi -ganglionic sympathectomy of the upperextremity the same 2 subjects, the observationswere repeated with generally similar results (Ta-
ble VII). In the summits and venous limbs of10 capillaries, the capillary blood pressure duringreactive hyperemia differed from the resting valuesby - 11.0 mm. Hg to + 4.5 mm. Hg (average 4mm. Hg) usually in a negative direction (TableVII). The occasional considerable differencewas obtained when the determination was madequickly after onset of the hyperemia, when the pre-ceding ischemia was of long duration (10 minutesrather than 5), and when the area of hyperemiawas great (forearm rather than digit alone).
These experiments were few in number. Dur-ing the erythema produced by the intradermal in-jection of histamine, considerable variation in digi-tal capillary blood pressure still persisted in both
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TABLE III
Capillary blood pressure in normal and hypertensive subjcdts
Arteriolar limb Summit Venous limb
Num- Num- CapillarY pressure Num- Num- CapillarY pressure Num- Num- Capillary pressureber of berof ber of ber of ber of ber ofsub- capil- sub- capil- sub- capil-jects laries Range Average Jects lanes Range Average Jects laries Range Average
mm. Hg mm. Hg mm. Hg mm. Hg mm. Hg mm. HgNormal .3 1 31 59 7.5 to 60 30.6 12 14 11 to 44 29.5 42 84 7.5 to 47 21.9
Hypertensive ....... 29 75 7.5 to 70.5 35.9 10 14 14 to 54.5 28.8 35 83 9.5 to 43 22.8
Most of the determinations were made at digital skin temperature between 30° C. and 350 C.
the arteriolar and venous limbs of normal and creases were greater in the venous limbs than inhypertensive subjects (Figure 6). In both the arteriolar limbs. In the normal subjects, thegroups, and for both locations in the capillary, the average capillary blood pressure in the venousvalues did not exceed the upper limits obtained limb rose 8.8 mm. Hg, and in the arteriolar limbduring moderate digital vasodilatation. How- only 3.6 mm. Hg. In the hypertensive subjects,ever, the average capillary blood pressures in all the increase in average capillary blood pressure inlocations of the capillary rose in both groups of the venous limb was 18.7 mm. Hg, and in thesubjects to exceed the average values obtained arteriolar limb, 10.7 mm. Hg. Because of theduring resting conditions (Figure 6). These in- greater increases in hypertensive subjects, the re-
TABLE IV
Gradient of blood pressure detrmined in the same capilary during a singk experiment
MEANARTERIAL PRESSURE *UJtFIG. 4. THE BLWODPRESSUEIN "ARmToLEs". AND "VENULES" DUPING THE RESTING STATE AND DURING His-
TAMINE FLAE IN NORMALAND HYPERTENSIVE SUBJECTSThe solid horizontal arrows and the numbers above the abscissa line indicate average pressures during the resting
state; the dotted arrows, average values during histamine flare. "Arteriole" and "venule" pressures in normal andhypertensive subjects vary over the same range, both during the resting state and during local hyperemia from hista-mine.
"Arterioles" 'Venules"
Presre PressureNumber of Number of Pre_ ure
_ Number of Number of Pre_uresubjects capillaries subjects capillaries
Range Average Rante Average
mm. Hg mm. Hg mm. Hg mm. HgNormal.11 15 21 to 71 52.7 7 7 12 to 21 14.6Hypertensive .......... 13 17 18 to 82 51.9 9 10 6 to 33 11.0
FIG. 5. DIGITAL CAPILLARY BLOODPRESSUREMEASUREDDURING REFLEx VASODILATATIONIN NORMALAND HYPERTENSIVE SUBJECTS
Capillary blood pressure in normal subjects:
12 arteriolar limbs of 7 subjects-14.5 mm. Hg to 45 mm. Hg, average 30 mm. Hg20 venous limbs of 9 subjects-10.5 mm. Hg to 47 mm. Hg, average 28 mm. Hg
Capillary blood pressure in hypertensive subjects:6 arteriolar limbs of 5 subjects-19 mm. Hg to 54 mm. Hg, average 32.7 mm. Hg4 venous limbs of 3 subjects-16.5 mm. Hg to 43 mm. Hg, average 32.9 mm. Hg
In both normal and hypertensive subjects the pressures are similar in both limbs of thecapillary.
TABLE V
The effect of reactive hyperemia on thKe capilary Uood pressure. Normal sized capillaries. Innervation intac
Resting state Reactive hyperemia
Arterial Arterial Capillary blood Location inSub- pressure presure pressure capillaryject Diagnosls Skin Capillary t Duration of where blood
(Sex, tmCafarte-and atrea of pressureage) pera- blood tem- Time of lachemia was
ture as toixe t reading preceding the determinedueReading "Mean" Reading "Mean" Reading after on- hyperemia
set of._____ ______ hyperemia
"C. mm. Hg mm. Hg mm. HgS C. mm. Hg mm. Hg mm. Hg secoxdsH. B. Essential 34.1 166/116 141 29.5 34.0 160/114 137 31 23 S minutes. digit Summit
(F. 31) hypertensionF. L. Essential 3S.0 166/122 144 23 35.0 166/122 144 19 32 S minutes, digit Arteriolar limb
(F. 35) hypertensionS. S. Esntial 3S.0 164/110 137 22.5 33.7 164/110 137 23 24 5 minutes, digit Venous limb
sultant average capillary blood pressures in both during the usual moderate digital vasodilatation.the arteriolar and venous limbs were higher in In the few normal subjects studied, this gradienthypertensive than in normal subjects: arteriolar was 3.5 mm. Hg and in the hypertensive subjects,limb-normal 34.2 mm. Hg, hypertensive 46.6 5.1 mm. Hg (Figure 6). The local blood flowmm. Hg; venous limb-normal 30.7 mm. Hg, during this erythema is believed to be much in-hypertensive 41.5 mm. Hg. creased. During the histamine flare, the arteriole
Due to the disproportionately greater increases blood pressure in both normal and hypertensivein venous limb pressure than in the arteriolar limb subjects was not significantly altered from thatpressure, the gradient of fall of pressure from during moderate digital vasodilatation alone (Fig-arteriolar limb to venous limb was less steep dur- ure 4). In the normal subjects, the average ar-ing the erythema produced by histamine than teriole blood pressure during the resting state was
TABLE VII
The effet of reactive hyperemia on the capillary blood pressure. Abnormaly large capialaries.Sympathectomized extremity
52.7 mm. Hg, during the erythema 49.9 mm. Hg,and in the hypertensive subjects, 51.9 mm. Hg and*58 mm. Hg, respectively.
During a single experiment, the capillary bloodpressure in the same location in a given capillarywas measured, both before and after the produc-tion of a histamine-flare. In 3 normal subjectsand 6 hypertensive patients, approximately equalchanges were induced in the capillary blood pres-
sure by the histamine-flare (Figure 7). No cor-
relation existed between the extent of the changein capillary blood pressure and the mean arterialpressure.
ARTERIOLAR LIMB
:
Relation of capillary blood pressure to mean
brachial arterial pressure
Neither in normal nor in hypertensive subjectswas there any correlation between the digital capil-lary blood pressure and the systolic, diastolic, or
mean arterial pressures. This maintained for therange as well as for average values, and for pres-
sures in both the arteriolar (Figure 8) and venous
limbs (Figure 9). The lack of correlation was
emphasized by the finding of almost equal digitalcapillary blood pressures in 2 patients. In one, thebrachial arterial pressure was unobtainable (aneu-rysm), in the other the mean arterial pressure was
FIG. 6. DIGITAL CAPILLARY BLoOD PRESSUREMEASUREDDURING LOCAL HYPEREMIAOFHISTAMINE IN NORMALAND HYPERTENSIVE SUBJECTS
Capillary blood pressure in normal subjects:5 arteriolar limbs of 4 subjects-26.5 mm. Hg to 43.5 mm. Hg, average 342 mm. Hg5 venous limbs of 5 subjects-11 mm. Hg to 42 mm. Hg, average 30.7 mm. Hg
Capillary blood pressure in hypertensive subjects:11 arteriolar limbs of 7 subjects-24.5 mm. Hg to 77.5 mm. Hg, average 46.6 mm. Hg12 venous limbs of 6 subjects-24.5 mm. Hg to 65 mm. Hg, average 41.5 mm. Hg
In both arteriolar and venous limbs capillary blood pressure is higher in hypertensivethan in normal subjects.
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FIG. 7. DIGITAL CAPILLARY BLOOD PRESSUREMEASUREDIN THE SAME CAPILLARY BEFORE AND DURING A LOCALHISTAMINE FLARE IN NORMALAND HYPERTENSIVESUBJECTS
Increases in pressure in corresponding locations of the capillary seem as great in normal as in hypertensive subjects.
201 mm. Hg. Lack of correlation between digitalcapillary blood pressure and arterial pressure per-sisted during the action of the above describeddigital vasoconstrictions and vasodilatations.
In 4 hypertensive patients, no significant differ-ences were noted between the capillary blood pres-sures determined during the hypertensive stateand those obtained when the arterial pressure hadreturned to normal (Table VIII). Reduction inarterial pressure occurred spontaneously in 2 pa-tients, accompanied unilateral nephrectomy in one,and in the fourth, followed bilateral subdiaphrag-matic splanchnicectomy and lumbar ganglionec-tomy (9). Although these determinations ofcapillary blood pressure were not made in thesame capillary, nor in the same location in thecapillaries at. the two levels of arterial pressure, the
conditions were otherwise kept as nearly similaras possible.
While under observation, a moderately hyper-tensive patient developed local arterial diseasewhich obliterated the arterial pulsations in the leftupper extremity, thereby making indirect deter-minations of arterial pressure impossible. In thecontralateral right arm, the arterial pressure re-mained moderately elevated. With the circula-tion to each upper extremity in moderate vaso-dilatation, the digital capillary blood pressure (de-termined largely in venous limbs) was almostidentical on the two sides (Table VIII).
DISCUSSION
These observations were made on capillaries inthe nail-folds of the fingers. The conclusions de-
724
I
CAPILLARY BLOOD PRESSUREIN HYPERTENSIVESUBJECTS
rived therefrom are limited to this single area andare not to be applied to capillaries in other regionsof the body or to the circulation as a whole. Inother areas, there may not be a duplication of thepeculiarities of anatomic structure (10) (arteriole-venule anastomoses), or of labile physiologic re-activity found in the vascular system of the digits.To draw generalized conclusions from data ob-tained in this single, specialized area does notseem justifiable. It is to be understood that thefollowing discussion pertains to one area alone,the nail-folds of the fingers.
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In both normal and hypertensive subjects, therewas a wide scattering and overlapping of the capil-lary blood pressures for each location in the capil-lary. This persisted even during procedures (e.g.,reflex vasodilatation) designed to produce a stand-ard, reproducible, state of the digital circulation.It is, therefore, difficult to justify general conceptsbased on average values. The data does, how-ever, indicate the trend of digital capillary bloodpressure under a variety of influences.
The digital capillary blood pressure in all loca-tions in the capillary was both qualitatively and
FIG. 8. DIGITAL CAPILLARY BLOOD PRESSUREIN THE ARTERIOLAR LIMBS OF SUBJECTS WITH NORMALARTERIALPRESSURECOMPAREDWITH PRESSURESIN THE ARTERIOLAR LIMBS OF HYPERTENSIVEPATIENTS
The capillary blood pressures vary over the same range in both groups of subjects. Due to multiple aneurysms,the brachial arterial pressure was unobtainable in the subject whose mean arterial pressure is recorded as zero.This does not exclude a substantial non-pulsatile arterial pressure.
FIG. 9. DIGITAL CAPILLARY BLOOD PRESSUREIN THE VENOUSLIMBS OF SUBJECTSWITH NORMALARTERIAL PRES-SURE COMPAREDWITH PRESSURESIN THE VENOUSLIMBS OF HYPERTENSIVEPATIENTS
The capillary blood pressures vary over the same range in both groups of subjects. The subject whose mean
arterial pressure is recorded as zero is the one referred to in Figure 8.
quantitatively similar in the normal and hyper-tensive subjects, and in the same individual or
group, at various levels of blood pressure. Thiswas so not only during the resting state but alsoduring such physiologic influences as neurogenicvasoconstrictions, reactive hyperemia, variationsin digital skin temperature between 270 C. and350 C., and reflex vasodilatation. Although theseinfluences are known to alter markedly the bloodflow to the digits (11, 12), they induced in bothnormal and hypertensive subjects only compara-
tively small, and equal, changes (20 per cent to 25per cent of the initial value) in capillary bloodpressure. The resultant values did not fall clearlybeyond the limits determined when these influ-ences were not operating. Such changes as didoccur were similar in all locations in the capillary,except during reflex vasodilatation, when the pres-
sure in the venous limb of the capillary rose while
that in the arteriolar limb remained unchanged.Only by raising the local venous pressure, was thedigital capillary blood pressure consistently alteredto values beyond -the wide normal limits. Venouspressure was not measured in these subjects.Clinically, there was no evidence that it was in-creased in any subject. The above changes were
similar at all ranges of arterial pressure.
The data do not adequately clarify the mecha-nism by which these physiologic stimuli inducesuch great changes in digital blood flow withoutconsiderable change in capillary blood pressure.
Perhaps the arteriole-venule anastomoses consti-tute one of the factors in this mechanism. Byvarying the calibre of the arteriole-venule shunts,and thus the amount of blood which by-passes thecapillary, physiologic influences could alter con-
siderably the blood flow through the digit withoutaffecting significantly the digital capillary blood
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cm
726
CAPILLARY BLOOD PRESSUREIN HYPERTENSIVESUBJECTS
pressure. Also, the digital blood flow derivesfrom the sum of the flows through a large numberof small peripheral vascular units. A relativelysmall change in a function of each small unit, whenmultiplied by the large number of units, couldaccount for a considerable change in some function(such as blood flow) of the digit as a whole.
It is significant for the maintenance of thepassage of normal amounts of fluid across thecapillary membrane that there be a mechanismwhereby the capillary blood pressure remains rela-tively unchanged during the considerable altera-tions in blood flow which accompany physiologicstimuli. The essentially similar capillary bloodpressure in the digits of both normal and hyper-tensive subjects indicates an increased steepnessof the gradient of pressure in the hypertensivesubject; and locates it between the artery (ele-vated pressure) and capillary (normal pressure),presumably in the arteriole. The increased pres-
sure-gradient is apparently due to the increasedresistance in the arteriole. This is in harmonywith the present concept that the increased gen-
eral vascular resistance in hypertension is arte-riolar in origin. The 50 per cent greater average
gradient of pressure from arteriolar limb to ve-
nous limb of the capillary in hypertensive subjectsmay suggest that the capillaries also contribute tothe increased vascular resistance in hypertension.This consideration was discarded because of thewide scattering of values in both groups of sub-jects and the failure of capillary blood pressure
to show any relationship to the arterial pressure.
Certainly, the overwhelming portion of the in-creased vascular resistance in the digits of thehypertensive subjects is arteriolar in origin.These data do not indicate the nature of the in-creased arteriolar resistance, whether functional(constriction), or the result of some diseaseprocess.
If vasodilating procedures relaxed fully thevascular resistance of both hypertensive and nor-
mal subjects, then, due to the greater arterialpressure, the capillary blood pressure in the hyper-tensive subjects should exceed that in normalsubjects. The three vasodilating procedures em-
ployed, reflex vasodilatation, reactive hyperemia,and histamine injected locally, all produced vaso-
dilatation through relaxation of vascular resis-tance. These few experiments suggested thatonly the locally injected histamine appeared torelax, at least to some extent, the increased vas-
TABLE VIII
Capillary blood pressure in the same individual during stages of elvated and lowered arterial pressure
Hypertenive stae Stage of lowered blood pressure
Subject Arterial prmure Capillary blood pressure Arterial prmare Capillary blood preoure(Se, Diwois Sin Sinag) tem- tem- Lowering of arterial
pem -*RMd- Arte- Sum- Venouse-Rtd ee Arts- Sum-Bw- Venous pressur due totare tng Mean" |tub | mit limb ture ing riole riotar mit limbe C. mm.Hg as. Hg mm. Hg us. nH . Hg * C. an. Hg a. Hg mm. Hg msLHg ma. Hg mm.Hg
M. E. Essential 29.1 164/98 131 14, 12 33.5 116178 97 50, 56 26.5 Spontaneous subsidenoe(F, 30) h ion __l_E. E. Esntial 35.3 192/114 153 49.5 33.1 116/94 105 38(F, 38) hypeteson 34.6 174/126 150 63 34.8 126/98 124 22 Bilatral splanchnic and
M. W. Chronic 34.2 174/126 150 20,16 20, 34.2 130/90 110 8 10,2 2, Left nephrectomy(M4, 26), pysIne- 13.5 14
U!GT LU ARM
J. A. Esstial 31.5 148/106 127 16, 19 32.7 not 7.5(M, 41) hypeteson 32.0 160/110 135 11.5 33.2 obtain- 12.5 L1oalarteial disera
28.9 160/110 135 29 32.2 able 17.5 19, 13 rended left arm publ___j33.3 11.5 les
727
LUDWIG W. EICHNA AND JAMES BORDLEY, III
cular resistance of the hypertensive subjects,whereas reflex vasodilatation and reactive hy-peremia did not. Only during the hyperemia ofhistamine did the capillary blood pressure in thehypertensive exceed that in the normal subject.During the physiologically induced vasodilata-tions of reactive hyperemia and reflex vasodilata-tion, the capillary blood pressure was essentiallyequal in the two groups. The data do not indicatewhether the relaxation of the increased vascularresistance by histamine was complete or partial.
In both normal and hypertensive subjects, thesethree vasodilating procedures caused a dispropor-tionately great rise in the capillary blood pressurein the venous limb. As a result, the increased digi-tal blood flow of vasodilatation was accompaniedby a lower gradient of pressure through the capil-laries of the digit. Apparently, digital blood flowneed not be proportional to the gradient of digitalcapillary blood pressure, and may be more closelydependent upon the patency of the arteriole-venule anastomoses. Dilatation of these struc-tures would increase the digital blood flow and,by raising the blood pressure in the venous limbof the capillary, reduce the gradient of pressurethrough the capillary.
These studies suggest that there are mecha-nisms which maintain the digital capillary bloodpressure within certain limits. These limits ap-pear not to be exceeded during the considerablechanges in digital blood flow which result fromthe action of certain physiologic influences. Norare these limits exceeded when a disease process,such as essential hypertension, markedly altersthe pressure in the arteries.
SUMMARY
1. The digital capillary blood pressure for alllocations in the capillary varied within widelimits, and was qualitatively and quantitativelysimilar in both normal and hypertensive subjects.This maintained during the following observa-tions which apply equally to both groups of sub-jects.
a. Such physiologic influences as neurogenicvasoconstrictions, reactive hyperemia, reflex vaso-dilatation, and variations in skin temperaturebetween 27° C. and 350 C., all induced such com-paratively small changes in the digital capillary
blood pressure that the resultant values did notfall beyond "resting" limits. These changes wereconsiderably smaller than the much larger altera-tions in digital blood flow known to occur undersimilar circumstances.
b. Only during increases in local venous pres-sure did the digital capillary blood pressure con-sistently exceed "resting" values.
c. Wide variations in digital capillary bloodpressure persisted during reflex vasodilatation, astate during which digital circulation is consideredto be full, standard, and reproducible.
d. During vasodilatation, induced reflexly or bylocally injected histamine, there was a dispropor-tionately greater increase in pressure in the venouslimb than elsewhere in the capillary. The otherstates all influenced equally the digital capillaryblood pressure in all locations of the capillary.
2. No correlation existed between the digitalcapillary blood pressure and the arterial pressure,except perhaps during the hyperemia induced byhistamine.
3. Some mechanism maintains the digital capil-lary blood pressure within relatively fixed limits,even during marked changes in digital blood flowand arterial pressure.
4. The similarity of the digital capillary bloodpressure of normal and hypertensive subjectsindicates that in the digits the increased vascularresistance of hypertensive subjects is precapillary,presumably arteriolar.
5. During the vasodilatation of reactive hy-peremia and reflex vasodilatation, the digital capil-lary blood pressure was essentially equal in bothnormal and hypertensive subjects; during vaso-dilatation induced by locally injected histamine,the capillary pressure of the hypertensive subjectsexceeded that in normal subjects. These fewexperiments may suggest that in the digits hista-mine appeared to relax, at least to some extent,the increased vascular resistance of hypertension,whereas reactive hyperemia and reflex vasodilata-tion did not.
6. These data and the conclusions derived there-from apply only to the capillary blood pressure inthe nail-folds of the fingers.
The authors gratefully acknowledge their indebtednessto Mr. William A. Oktavec, Jr., for making the micro-pipettes and for his constant and most helpful assistancein this study.
728
CAPILLARY BLOOD PRESSUREIN HYPERTENSIVESUBJECTS
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