Abstract
Exercise, of appropriate intensity and duration, could help maintain normotension
if post-exercise hypotension persists over subsequent everyday activities. Therefore,
we monitored ambulatory blood pressure (BP) for 24 h following four separate exercise
bouts which differed in intensity, duration and total work completed. At 08:00 h,
six normotensive males completed a no exercise control and, in two further trials,
30 min of cycling at 70 % V˙O2peak and 40 % V˙O2peak. A fourth trial involved cycling at 40 % V˙O2peak for a time which equated total work with that in the most intense exercise trial.
Between 20 min and 24 h after exercise, ambulatory BP, heart rate (HR) and wrist-activity
were compared between trials using general linear models. Participants slept normally
at night. Post-exercise changes in BP and HR were not affected by exercise intensity
or total work completed from 20 min after exercise until nocturnal sleep-onset (p > 0.21).
During sleep, mean arterial BP was lower following exercise at 70 % V˙O2peak compared to the other trials (p = 0.03), including the 40 % V˙O2peak trial equated for total work (90 % CI for difference = − 22.1 to − 0.1). We conclude
that daytime exercise can elicit a physiologically meaningful lower BP during sleep
and exercise intensity is the most important factor in this phenomenon.
Key words
ambulatory blood pressure - exercise - circadian rhythm - heart rate
References
- 1
Atkinson G.
Analysis of repeated measurements in physical therapy research.
Phys Ther Sport.
2001;
2
1-15
- 2 Bird S, Davison R. Physiological testing guidelines. Leeds; B.A.S.E.S 1997
- 3
Forjaz C LM, Cardoso Jr C G, Rezk C C, Santaella D F, Tinucci T.
Postexercise hypotension and hemodynamics: the role of exercise intensity.
J Sports Med Phys Fit.
2004;
44
54-62
- 4
Feise R J.
Do multiple outcome measures require p-value adjustment?.
BMC Med Res Methodol.
2002;
2
8-12
- 5
Gretler D D, Carlson G F, Montano A V, Murphy M B.
Diurnal blood pressure variability and physical activity measured electronically and
by diary.
Am J Hypertens.
1993;
6
127-133
- 6
Guidry M A, Blanchard B E, Thompson P D, Maresh C M, Seip R L, Taylor A L, Pescatello L S.
The influence of short and long duration on the blood pressure response to an acute
bout of dynamic exercise.
Am Heart J.
2006;
151
1322.e5-1322.e12
- 7
Jones H, Atkinson G, Leary A, George K, Murphy M, Waterhouse J.
The reactivity of ambulatory blood pressure to physical activity varies with time
of day.
Hypertens.
2006;
47
778-784
- 8
Jones H, George K, Edwards B, Atkinson G.
Is the magnitude of acute post-exercise hypotension mediated by exercise intensity
or total work done?.
Eur J Appl Physiol.
2007;
102
33-40
- 9
Kenney M J, Seals D R.
Postexercise hypotension. Key features, mechanisms and clinical significance.
Hypertens.
1993;
22
653-664
- 10
Leary A C, Struthers A D, Donnan P T, MacDonald M T, Murphy M B.
The morning surge in blood pressure and heart rate is dependent on levels of physical
activity after waking.
J Hypertens.
2002;
20
865-870
- 11
MacDonald J R, Hogben C D, Tarnopolsky M A, MacDougall J D.
Post-exercise hypotension is sustained during subsequent bouts of mild exercise and
simulated activities of daily living.
J Hum Hypertens.
2001;
15
567-571
- 12
MacDonald J R.
Potential causes, mechanisms, and implications of post exercise hypotension.
J Hum Hypertens.
2002;
16
225-236
- 13
Middelkoop H AM, Van Dam E M, Smilde-Van Den Doel D A, Van Dijk G.
45-hour continuous quintuple-site actimetry: Relations between trunk and limb movements
and effects of circadian sleep-wake rhythmicity.
Psychophysiol.
1997;
34
199-203
- 14
Nami R, Mondillo S, Agricola E, Lenti S, Ferro G, Nami N, Tarantino M, Glauco G, Spano E,
Gennari C.
Aerobic exercise training fails to reduce blood pressure in non-dipper-type hypertension.
Am J Hypertens.
2000;
13
593-600
- 15
O'Brien E, Asmar R, Beilin L, Imai Y, Mancia G, Mengden T, Myers M, Padfield P, Palatini P,
Parati G, Pickering T, Redon J, Staessen J, Stergiou G, Verdecchia P.
Practical guidelines for the European Society of Hypertension for clinic, ambulatory
and self blood pressure measurement.
J Hypertens.
2005;
23
697-701
- 16
O'Brien E, Petrie J, Littler W, de Swiet M, Padfield P L, O'Malley K, Jamieson M,
Altman D, Bland M, Atkins N.
The British Hypertension Society protocol for the evaluation of automated and semi-automated
blood pressure measuring devices with special reference to ambulatory systems.
J Hypertens.
1990;
8
607-619
- 17
Palatini P, Frigo G, Bertolo O, Roman E, Da Corta R, Winnicki M.
Validation of the A & D TM-2430 device for ambulatory blood pressure monitoring and
evaluation of performance according to subjects' characteristics.
Blood Press Monit.
1998;
3
255-260
- 18
Parati G.
Blood pressure reduction at night: sleep and beyond.
Hypertens.
2000;
18
1725-1729
- 19
Park S, Jastremski C A, Wallace J P.
Time of day for exercise on blood pressure reduction in dipping and nondipping hypertension.
J Hum Hypertens.
2005;
19
597-605
- 20
Perneger T V.
What's wrong with Bonferroni adjustments.
BMJ.
1998;
316
1236-1238
- 21
Pescatello L S, Franklin B A, Fagard R, Farquhar W B, Kelley G A, Ray C A.
American College of Sports Medicine. Position stand. Exercise and hypertension.
Med Sci Sport Exerc.
2004;
36
533-553
- 22
Pescatello L S, Guidry M A, Blanchard B E, Kerr A, Taylor A L, Johnson A N, Maresh C M,
Rodriguez N, Thompson P D.
Exercise intensity alters postexercise hypotension.
J Hypertens.
2004;
12
1881-1888
- 23
Shephard R J, Balady G J.
Exercise as cardiovascular therapy.
Circulation.
1999;
99
963-972
- 24
Sterne J AC, Davey-Smith G.
Sifting the evidence – what's wrong with significance tests?.
BMJ.
2001;
322
226-231
- 25
Verdecchia P.
Prognostic value of ambulatory blood pressure.
Hypertens.
2000;
35
844-851
- 26
Wallace J P, Bogle P G, King B A, Krasnoff J B, Jastremski C A.
The magnitude and duration of ambulatory blood pressure reduction following acute
exercise.
J Hum Hypertens.
1999;
13
361-366
- 27
Whelton S P, Chin A, Xin X, He J.
Effect of aerobic exercise on blood pressure: a meta-analysis of randomized, controlled
trials.
Annals Int Med.
2002;
136
493-503
Dr. BSc PhD Helen Jones
Research Institute for Sport and Exercise Sciences
Liverpool John Moores University
Webster Street
L3 2ET Liverpool
United Kingdom
Phone: + 44 15 12 31 41 20
Fax: + 44 15 12 31 43 53
Email: h.jones1@ljmu.ac.uk