. Author manuscript; available in PMC: 2012 Sep 1.

Published in final edited form as: J Cardiopulm Rehabil Prev. 2011 Sep-Oct;31(5):290–297. doi: 10.1097/HCR.0b013e318220a817

Table 3.

Effect of vascular indices on rate of change in Attention-Executive-Psychomotor function.

Term	Estimate	S.E.	Pvalue
Time	−.14	.11	.212
Cardiac output^a	−.00	.02	.991
Ejection fraction^a	.15	.18	.426
SBP variability^a	−.00	.01	.887
DBP variability^a	−.01	.01	.162
IMT^a	−.18	.17	.311
BAR-reactive hyperemia^a	−.00	.00	.465
Cardiac output x year^b	.03	.01	.012
Ejection fraction x year^b	−.17	.11	.122
SBP variability x year^b	.01	.00	.031
DBP variability x year^b	−.01	.01	.021
IMT x year^b	.13	.10	.210
BAR-reactive hyperemia x year^b	−.00	.00	.570

The analysis adjusted for age and baseline score on the Attention-Executive-Psychomotor composite.

Abbreviation: SBP, systolic blood pressure; DBP, diastolic blood pressure; IMT, carotid intima media thickness; BAR, brachial artery response.

Time represents the mean estimated rate of change in Attention-Executive-Psychomotor function in the cohort, when all vascular indices are set to zero.

Represents the estimated difference in baseline scores on Attention-Executive-Psychomotor function for each unit increase in the cardiovascular index, adjusted for the other vascular indices.

Represents the estimated difference in rate of change on Attention-Executive-Psychomotor function for each unit increase in the vascular index, adjusted for the other vascular indices.