Bm. Wall et al., CHARACTERISTICS OF VASOPRESSIN RELEASE DURING CONTROLLED REDUCTION INARTERIAL-PRESSURE, The Journal of laboratory and clinical medicine, 124(4), 1994, pp. 554-563
Citations number
38
Categorie Soggetti
Medical Laboratory Technology","Medicine, General & Internal
Because of the interruption of the descending sympathetic nervous path
ways, individuals with cervical spinal cord injury experience orthosta
tic hypotension when in an upright posture. The changes in hemodynamic
parameters that occur during upright posture can be closely monitored
and quantitated during progressive head-up tilting on a tilt table. W
e have utilized this method to assess the response of vasopressin and
other vasoactive hormones to gradual, progressive reductions in arteri
al pressure and to identify possible threshold responses to barorecept
or stimulation in human subjects. Studies were performed in 12 quadrip
legic subjects, 3 paraplegic subjects, and 3 normal control subjects.
Data from the studies in paraplegic and normal subjects did not differ
and were pooled as control data. In quadriplegic subjects, mean arter
ial pressure (MAP) decreased from 93 +/- 4 mm Hg to 60 +/- 3 mm Hg in
a closely correlated (r = 0.948, p < 0.002) linear relationship with i
ncreasing degrees of tilt, whereas in control subjects, MAP increased
from 81 +/- 4 to 88 +/- 3 mm Hg. Plasma vasopressin concentrations (Pa
vp) increased minimally in quadriplegic subjects until MAP was reduced
to levels that were 25% to 30% lower than MAP with subjects in the su
pine posture. Beyond this level of hypotension, Pavp increased markedl
y. Log-linear regression analysis of these data showed a highly signif
icant correlation (r = 0.85, p < 0.0002) between In Pavp and MAP, whic
h defines Pavp as an exponential function of decreasing MAP. Changes i
n Pavp in control subjects were minimal during incremental head-up til
ting. In contrast, plasma renin activity (PRA) increased in both quadr
iplegic and control subjects. Log-linear regression analysis of these
data showed highly significant correlates between In PRA and degree of
tilt in both quadriplegic (r = 0.958, p < 0.0002) and control (r = 0.
873, p < 0.0002) subjects. Plasma atrial natriuretic peptide concentra
tions decreased linearly with increasing degrees of tilt. The rate of
decline in Panp was greater in quadriplegic than In control subjects.
These studies provide additional evidence that Pavp increases exponent
ially as a function of decreasing MAP and suggest that a critical thre
shold level of hypotension exists at which vasopressin release acceler
ates rapidly in response to baroreceptor stimulation. At this level of
reduced MAP, Pavp reaches levels that are potentially capable of exer
ting a presser effect.