Continuous vs Aerobic Postexercise Hypotension
| Status: | Recruiting |
|---|---|
| Conditions: | Cardiology |
| Therapuetic Areas: | Cardiology / Vascular Diseases |
| Healthy: | No |
| Age Range: | 18 - 55 |
| Updated: | 1/11/2019 |
| Start Date: | October 5, 2017 |
| End Date: | December 1, 2020 |
| Contact: | Siddhartha Angadi, PhD |
| Email: | sangadi@asu.edu |
| Phone: | 6329803253 |
Postexercise Hemodynamics Compared in Obese and Non-Obese Subjects After Aerobic Interval Training
This study examines the effect of obesity and gender on postexercise hypotension with three
different randomized exercise protocols or varying intensity. Subjects will be separated into
obese and non-obese groups and then further by gender. From there, they will be put through a
control, continuous exercise bout, and aerobic interval bout of exercise in a randomized
order over three visits. Post exercise blood pressure, as well as other non-invasive cardiac
measures will be taken over a 4 hour period.
different randomized exercise protocols or varying intensity. Subjects will be separated into
obese and non-obese groups and then further by gender. From there, they will be put through a
control, continuous exercise bout, and aerobic interval bout of exercise in a randomized
order over three visits. Post exercise blood pressure, as well as other non-invasive cardiac
measures will be taken over a 4 hour period.
Suboptimal blood pressure, defined as >115/75 mmHg by meta-analysis, exhibits a positive
relationship with cardiovascular disease, and is the leading attributable risk factor for
death. Research has illustrated that even blood pressure (BP) below the hypertensive levels
can contribute to increased vascular mortality. It has been demonstrated that for incremental
increases in blood pressure (every 20 mmHg systolic or 10 mmHg diastolic) there is a twofold
increase in cardiovascular disease risk. However, mounting evidence suggests that increased
fitness and physical activity4 may attenuate the typical age related increase in BP to
hypertensive levels. Exercise has been recommended as the first line of treatment in
prehypertension and suboptimal BP, and a single bout of exercise (as short at 10 min) has
been shown to lower BP for up to 12 hours post. It is this extended bout of postexercise
hypotension (PEH) that is thought to contribute to the anti-hypertensive effects of exercise.
PEH is well documented in lean and overweight individuals, but there is limited data on PEH
in obese populations of both genders. Well characterized for lean and overweight individuals
matched for BP, how obese men and women react postexercise is largely unknown and undefined.
Only a few published studies exist. A recent meta-analysis examined PEH, but only included
subjects with a body mass index of < 31 kg/m2. Only one study to date included exclusively
obese subjects (all women), but the authors only demonstrated a PEH 10 min postexercise. To
date, we are aware of no published data examining BP matched PEH in centrally obese men and
women to that of non-obese men and women.
Exercise intensity has been shown to play a role in PEH as well. Data from this lab has
demonstrated that short duration, high intensity exercise (aerobic interval exercise -AIE)
was able to stimulate a greater duration of PEH when compared to that of a longer duration,
moderate intensity exercise (continuous exercise- CE) or even sprint like training. One
recently published study examines the effects on AIE training of young, obese women. No
significant PEH was found after one hour, however, this time period may not have been long
enough to see a significant change in PEH, hence why we are proposing a longer postexercise
measurement period.
The mechanism for which PEH occurs is unclear. It is thought to be from structural,
neurohormonal, and vascular effects of exercise, however, how these variables effect PEH in
obese vs non-obese populations has not been studied directly. Using non-invasive methods such
as heart rate variability (HRV), cardiac output (CO), and systemic vascular resistance (SRV)
will assist us in creating a better idea of the mechanism that which PEH occurs, and any
clinical difference central obesity has on these factors. A prior study from this lab found
that obese subjects had a heterogeneous response in CO and SVR (increased cardiac output and
augmented SVR) when compared to that of non-obese matched subjects, but once more these
subjects were only evaluated for 1 hour postexercise.
relationship with cardiovascular disease, and is the leading attributable risk factor for
death. Research has illustrated that even blood pressure (BP) below the hypertensive levels
can contribute to increased vascular mortality. It has been demonstrated that for incremental
increases in blood pressure (every 20 mmHg systolic or 10 mmHg diastolic) there is a twofold
increase in cardiovascular disease risk. However, mounting evidence suggests that increased
fitness and physical activity4 may attenuate the typical age related increase in BP to
hypertensive levels. Exercise has been recommended as the first line of treatment in
prehypertension and suboptimal BP, and a single bout of exercise (as short at 10 min) has
been shown to lower BP for up to 12 hours post. It is this extended bout of postexercise
hypotension (PEH) that is thought to contribute to the anti-hypertensive effects of exercise.
PEH is well documented in lean and overweight individuals, but there is limited data on PEH
in obese populations of both genders. Well characterized for lean and overweight individuals
matched for BP, how obese men and women react postexercise is largely unknown and undefined.
Only a few published studies exist. A recent meta-analysis examined PEH, but only included
subjects with a body mass index of < 31 kg/m2. Only one study to date included exclusively
obese subjects (all women), but the authors only demonstrated a PEH 10 min postexercise. To
date, we are aware of no published data examining BP matched PEH in centrally obese men and
women to that of non-obese men and women.
Exercise intensity has been shown to play a role in PEH as well. Data from this lab has
demonstrated that short duration, high intensity exercise (aerobic interval exercise -AIE)
was able to stimulate a greater duration of PEH when compared to that of a longer duration,
moderate intensity exercise (continuous exercise- CE) or even sprint like training. One
recently published study examines the effects on AIE training of young, obese women. No
significant PEH was found after one hour, however, this time period may not have been long
enough to see a significant change in PEH, hence why we are proposing a longer postexercise
measurement period.
The mechanism for which PEH occurs is unclear. It is thought to be from structural,
neurohormonal, and vascular effects of exercise, however, how these variables effect PEH in
obese vs non-obese populations has not been studied directly. Using non-invasive methods such
as heart rate variability (HRV), cardiac output (CO), and systemic vascular resistance (SRV)
will assist us in creating a better idea of the mechanism that which PEH occurs, and any
clinical difference central obesity has on these factors. A prior study from this lab found
that obese subjects had a heterogeneous response in CO and SVR (increased cardiac output and
augmented SVR) when compared to that of non-obese matched subjects, but once more these
subjects were only evaluated for 1 hour postexercise.
Inclusion Criteria:
- Healthy, inactive (defined as less than 60 min of moderate to vigorous physical
activity per week)
- Men (age 18-45) and non-pregnant women (age 18-55)
- Normal BMI and waist circumference (18.5- 24.5 kg/m2 and waist <94 cm ) OR obese (BMI
> 30kg/m2 and waist >94 cm).
- normotensive or prehypertensive blood pressure (SBP <140 and DBP <90) according to JNC
guidelines.
Exclusion Criteria:
- Subjects over age (men >45, women > 55)
- Subjects who register more than 60 minutes/week of moderate-to-vigorous physical
activity via accelerometer
- Subjects who classify as hypertensive (SBP >140 or DBP >90)
- Subjects who answer positively (i.e. yes) on The Physical Activity Readiness
Questionnaire (PAR-Q).
- Subjects with known cardiovascular, pulmonary, renal, or metabolic disease, or are
having symptoms of these disease will be excluded, following current American College
of Sports Medicine guidelines (ACSM).
- Current smokers
- Pregnant women
- Anyone with contraindications to vigorous exercise will be excluded from the study.
-Subjects on medications used for the treatment of symptomatic cardiovascular disease
will be excluded.
We found this trial at
2
sites
Phoenix, Arizona 85004
Phone: 632-980-3253
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