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IT IS WELL KNOWN that baroreceptor reflex activity is an important factor in the acute homeostatic regulation of the cardiovascular system, particularly under stressful conditions such as haemorrhage or sudden postural changes. 1-4 Despite the numerous changes observed in cardiovascular structure and function that occur with aging, 5-13 the relationship between aging and baroreceptor reflex function has not been clarified. Earlier work by Norris, et al. TM using tilting techniques observed reflex changes in heart rate and blood pressure in normal subjects and ambulatory patients ranging in age from 20 to 92 years. The elderly subjects showed the greatest decrease in blood pressure with the least change in heart rate, suggesting that with aging there is some alteration in the reflex regulation of the cardiovascular system.Wade, et al., utilizing the Valsalva maneuver to quantitate baroreeeptor reflex function, showed the baroreeeptor reflex activity appeared to decrease with age. 1~ However, a majority of patients studied had some clinically significant occlusive cerebral vascular disease. In three recent studies utilizing techniques of stressing the baroreceptor mechanisms by pharmacologically induced hypertension, Bristow, et al., 1~ Eckberg, et al.y and Gribbin, et al3 s found a negative correlation between baroreceptor reflex function and age. Bristow, et al. studied normotensive and hypertensive subjects. Baroreflex function was decreased in their hypertensive subjects. An inverse relationship between age and baroreflex function was apparent when all subjects were considered irrespective of their baseline blood pressures. In Eekberg's studies, a similar relationship between age and baroreceptor reflex function was observed in 23 subjects with no demonstrable cardiovascular disease. The majority of their controls (15 subjects) were between the ages of 15 and 30 years. Because only 3 subjects were over the age of 45 years, we felt that the age spectrum covered was inadequate. Gribbin, et al. observed that baroreflex sensitivity was independently reduced by increasing age and blood pressure in a larger number of subjects than the latter study. The purpose of this present study was to examine the relationship between aging and baroreflex funetion in man by utilizing two quantitative tests of baroreflex fun+ tion. The tradition/d Valsalva maneuver test as described by Sharpey-Schafer, 19 which stimulates the baroreflex by producing a transient arterial hypotension and the pressor test described by Smyth, Sleight, and Piekering, 2~ which is based on producing a baroreflex response to pharmacologically induced hypertension.
Clinical features of autonomic neuropathy include postural hypotension, sweating abnormalities, disturbance of body temperature regulation, gastric fullness and nausea, intermittent nocturnal diarrhoea, constipation, bladder problems and impotence. In diabetic patients, gustatory sweating and hypoglycaemic unawareness also sometimes occur (Johnson & Spalding, 1974). The onset of symptoms is usually insidious and permanent, but may occasionally be acute and reversible (Young, Asbury, Corbett & Adams, 1975). Autonomic dysfunction can arise from three main causes: first, those where the damage to the autonomic nervous system is isolated, as in primary postural hypotension (Bannister, Sever & Gross, 1977) and familial dysautonomia (Brunt & McKusick, 1970); secondly, those caused by toxic or pharmacological agents which interfere with autonomic reflexes; thirdly, those associated with systemic disease, of which diabetes mellitus is the most common. Other diseases which may cause autonomic dysfunction include amyloidosis, porphyria, tetanus, polyneuritis, tabes dorsalis, parkinsonism, chronic renal failure and alcoholism, and occasionally autonomic neuropathy has been associated with carcinoma of the bronchus or the pancreas (Johnson & Spalding, 1974). Although it is possible to localize lesions within the autonomic nervous system to afferent or efferent sympathetic or parasympathetic pathways (Johnson & Spalding, 1974; Moskowitz, 1977), many of the available tests are complex and invasive and often lack adequate control measurements (Young et al., 1975). Because of the patchy nature of autonomic neuropathy, current interest has centred around the search for bedside tests that are ‘global’, reproducible and non-invasive. This review summarizes the present state of knowledge of simple tests of cardiovascular reflex function in the clinical evaluation of autonomic neuropathy, particularly in diabetic subjects.
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