Hemodynamic and autonomic nervous system responses to mixed meal
ingestion in healthy young and old subjects and dysautonomic patients
with postprandial hypotension.
Lipsitz LA, Ryan SM, Parker JA,
Freeman R, Wei JY, Goldberger AL
In: Circulation (1993 Feb) 87(2):391-400
BACKGROUND. Although postprandial hypotension is a common cause of
falls and syncope in elderly persons and in patients with autonomic
insufficiency, the pathophysiology of this disorder remains unknown.
METHODS AND RESULTS. We examined the hemodynamic, splanchnic blood
pool, plasma norepinephrine (NE), and heart rate (HR) power spectra
responses to a standardized 400-kcal mixed meal in 11 healthy young
(age, 26 +/- 5 years) and nine healthy elderly (age, 80 +/- 5 years)
subjects and 10 dysautonomic patients with symptomatic postprandial
hypotension (age, 65 +/- 16 years). Cardiac and splanchnic blood
pools were determined noninvasively by radionuclide scans, and
forearm vascular resistance was determined using venous occlusion
plethysmography. In healthy young and old subjects, splanchnic blood
volume increased, but supine blood pressure remained unchanged after
the meal. In both groups, HR increased and systemic vascular
resistance remained stable. Forearm vascular resistance and cardiac
index increased after the meal in elderly subjects, whereas these
responses were highly variable and of smaller magnitude in the young.
Young subjects demonstrated postprandial increases in low-frequency
HR spectral power, representing cardiac sympatho-excitation, but
plasma NE remained unchanged. In elderly subjects, plasma NE
increased after the meal but without changes in the HR power
spectrum. Patients with dysautonomia had a large postprandial decline
in blood pressure associated with no change in forearm vascular
resistance, a fall in systemic vascular resistance, and reduction in
left ventricular end diastolic volume index. HR increased in these
patients but without changes in plasma NE or the HR power spectrum.
CONCLUSIONS. 1) In healthy elderly subjects, the maintenance of blood
pressure homeostasis after food ingestion is associated with an
increase in HR, forearm vascular resistance, cardiac index, and
plasma NE. In both young and old, systemic vascular resistance is
maintained. 2) Dysautonomic patients with postprandial hypotension
fail to maintain systemic vascular resistance after a meal. This
impairment in vascular response to meal ingestion may underlie the
development of postprandial hypotension. 3) The measurement of mean
HR or plasma NE does not adequately characterize autonomic cardiac
control. Power spectral analysis suggests an impairment in the
postprandial autonomic modulation of HR in healthy elderly and
dysautonomic subjects, possibly predisposing to hypotension when
vascular compensation is inadequate.