Systolic Blood Pressure Response During Exercise Stress Testing: The Henry Ford ExercIse Testing (FIT) Project

Ordinary least squares (OLS) regression, commonly called linear regression, is often used to assess, or adjust for, the relationship between a continuous independent variable and the mean of a continuous dependent variable, implicitly assuming a linear relationship between them. Linearity may not hold, however, and analyzing the mean of the dependent variable may not capture the full nature of such relationships. Our goal is to demonstrate how combined use of quantile regression and restricted cubic splines (RCS) can reveal the true nature and complexity of relationships between continuous variables. We provide a review of methodologic concepts, followed by two examples using real data sets. In the first example, we analyzed the relationship between cognition and disease duration in multiple sclerosis. In the second example, we analyzed the relationship between length of stay (LOS) and severity of illness in the intensive care unit (ICU). In both examples, quantile regression showed that the relationship between the variables of interest was heterogeneous. In the second example, RCS uncovered nonlinearity of the relationship between severity of illness and length of stay. Together, quantile regression and RCS are a powerful combination for exploring relationships between continuous variables.

Systolic blood pressure response to exercise has been shown to predict development of hypertension in men, but this association has not been examined in population-based samples of men, or in women or non-whites. This relationship was explored in 3741 normotensive black and white young adults undergoing treadmill testing in the CARDIA study and examined 5 years later for development of hypertension. Exaggerated response to exercise (systolic pressure > or = 210 mm Hg in men and > or = 190 mm Hg in women) was detected in 687 subjects (18%) at baseline, and incident hypertension (blood pressure > or = 140/90 mm Hg or on medication) was detected in 184 subjects (4.9%) at followup. Persons with exaggerated response to exercise at baseline had 5 mm Hg higher systolic and 1 mm Hg higher diastolic pressures at follow-up (P < .005) and were 1.70 times more likely to have developed hypertension than were persons with normal response (P < .001). After adjustment for age, race, sex, clinic, resting systolic pressure, body mass index, heavy activity score, exercise duration, and preexercise systolic pressure, exaggerated response was associated with a 2.14 mm Hg increase in year 5 systolic pressure (P < .0001). These associations did not differ by race or sex. Although the increment in systolic pressure associated with exaggerated exercise response was small (1 to 3 mm Hg), this small increment sustained over time could lead to a substantially increased incidence of hypertension and hypertension-related target organ damage. Determination of factors associated with exaggerated response may provide further insights into the development of hypertension in young adults.(ABSTRACT TRUNCATED AT 250 WORDS)