By Karina Ninni  |  Agência FAPESP – A study published in the journal Blood Pressure Monitoring shows that the benefits of physical activity for hypertensives (people with high blood pressure) can be boosted if it takes place between 6 p.m. and 9 p.m.

The analysis focused on heart rate recovery (HRR), commonly defined as the deceleration in heart rate after cessation of exercise. Exercising in the evening improved both the fast phase of HRR, measured 60 seconds after physical effort peaked, and the slow phase, measured 300 seconds after the peak.

The investigation was conducted by postdoctoral fellow Leandro Campos de Brito, under the supervision of Cláudia Lúcia de Moraes Forjaz, a professor at the University of São Paulo’s School of Physical Education and Sports (EEFE-USP) in Brazil. Brito compared responses in hypertensive patients to structured aerobic training performed in the morning and evening for ten weeks.

According to Brito, about 25% of the subjects did not respond to the exercise in terms of control of blood pressure, and non-conventional strategies are required for these patients, such as training at a time of day when benefits are maximized.

His initial idea during his PhD research was to study the chronic effects of exercise in terms of cardiovascular benefits in general. This also included HRR as a measure of cardiac autonomic regulation. 

“Cardiac autonomic regulation has sympathetic and parasympathetic components. The latter makes the heart rate slow down, while the former makes the heart accelerate and beat more strongly,” he explained. “After a period of exercise training, the power of the parasympathetic system is expected to increase [relaxing the heart] and that of the sympathetic system should decrease. This mechanism can be inferred by measuring HRR in the first 60 seconds [a typically parasympathetic response] and 300 seconds after the end of a maximum cardiopulmonary effort test. The latter response points to both the efficacy of the parasympathetic nerves in HRR and deceleration of the sympathetic component, which intensifies during exercise.”

According to the researchers, the fact that both the fast and slow phases of HRR increased in evening exercise suggests that training in the evening is beneficial for both components of the cardiac autonomic system (the parasympathetic and sympathetic). The results also show that the beneficial effects of evening exercise are not limited to the period of the exercise itself. “We evaluated people in the morning and evening, and the results of both assessments were better for those who trained in the evening,” Brito said.

Method

The experiment involved 49 middle-aged hypertensive men who had been medicated for at least four months with the same type of drug and the same dosage regimen. They were divided randomly into three groups: morning exercise (7-9 a.m.), evening exercise (6-9 p.m.), and control (no aerobic training).

Subjects performed the training program three times a week for ten weeks, exercising with moderate intensity on a stationary bicycle for 30 minutes in the first two weeks and for 45 minutes thereafter. The control group did stretching exercises for 30 minutes. In assessments conducted before and after the program, HRR was measured 60 seconds and 300 seconds after cessation of exercise.

“For the control group, we chose types of stretching [static and active] that would have no additional benefit on the variable of study. We wanted the control group to go to EEFE-USP the same number of times as the training groups, have their blood pressure measured the same number of times, meet the researchers on the same days, and feel just as cared for,” said Brito, first author of the article.

The experiment took place at EEFE-USP’s Motor Activity Hemodynamics Laboratory, which is headed by Forjaz. The study was supported by FAPESP via a PhD scholarship awarded to Brito, who had previously received a master’s scholarship and is currently supported by a postdoctoral fellowship. 

Possible reasons

The researchers aim to understand the mechanisms that make the improvement from evening exercise more significant. In their first study, they discovered that baroreflex sensitivity (an autonomic mechanism that controls arterial blood pressure between heartbeats) increased as a result of exercise training.

“Each time your heart beats, the baroreflex mechanism assesses whether blood pressure has risen or fallen too much and corrects it. Better baroreflex sensitivity means better health,” Brito said. “Both morning and evening exercise improved it, but evening exercise improved it more. However, this is a spontaneous measurement made while the subject is at rest. As part of my postdoctoral research, we’re stimulating baroreflex sensitivity to the utmost with medications, no doubt owing to the stressfulness of our everyday lives. No one is at rest all the time. We all have to deal with physical, cognitive and emotional challenges, and this autonomic control is required for those as well.”

Cardiovascular functions vary during the 24 hours of any day, he explained: “What’s expected is that when we wake up in the morning, our blood pressure rises, peaking around 10 a.m., and stabilizes until mid-afternoon, around 3 p.m., when it falls a little. It peaks again between 6 and 8 p.m., after which it declines. Both blood pressure and heart rate are lowest in the small hours before dawn. Our proposition is that evening exercise occurs in a window of opportunity for a significant improvement.”

Baroreflex sensitivity is better and the sympathetic system less active in the evening. “In addition, the 24-hour cycle entails a lower heart rate and less resistance in blood vessels in the evening, a time when stress on the cardiovascular system is low. This appears to explain why evening exercise is more beneficial. It’s a hypothesis to explain our results,” Brito said.

He co-authored earlier articles on the same topic, including a paper published last year in the journal Clinical and Experimental Hypertension (more at: agencia.fapesp.br/34194/). 

Lifestyle

Morning exercise is also beneficial, but less so. “It’s important to say that any time of day is better than none as far as exercise is concerned. In other words, we need exercise. Our study aimed at maximizing responses,” Brito said.

Resistant hypertensives, who take anti-hypertensive medication four or more times per day, need a better approach to the problem than the conventional ones. “Our results are very relevant to the treatment of these patients,” he stressed.

Everyone’s blood pressure tends to become higher as they get older, but not everyone becomes hypertensive. “One in four adults is hypertensive. Two out of three older people are hypertensive,” he said. 

At least 150 minutes of moderate exercise per week is the recommendation for an adult. “If you do only the 150 minutes, you’re 7% less likely to become hypertensive in adulthood. The exercise can be any kind of activity, including house cleaning. For those who are already hypertensive, doing the recommended minimum reduces the likelihood of complications from high blood pressure by 50%,” he said.

Physical activity in general significantly improves the control of blood pressure. “Structured aerobic exercise is as beneficial for hypertensives as taking anti-hypertensive medication,” Brito said. “In the guidelines issued by the Brazilian Hypertension Society [SBH], the first recommendation is a change of lifestyle, not the use of medication, if permitted by the patient’s clinical condition,” said Brito, who also heads SBH’s physical education department. “All hypertensives should get regular aerobic exercise.”

The article “Comparison of morning versus evening aerobic-exercise training on heart rate recovery in treated hypertensive men: a randomized controlled trial” is at: journals.lww.com/bpmonitoring/Abstract/9000/Comparison_of_morning_versus_evening.99294.aspx.