1.
Essential Hypertension and Oxidative Stress: Novel Future Perspectives.
Franco, C, Sciatti, E, Favero, G, Bonomini, F, Vizzardi, E, Rezzani, R
International journal of molecular sciences. 2022;23(22)
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High blood pressure is one of the main risk factors for cardiovascular disease and a significant contributor to the development of strokes, heart attacks, and heart and kidney failure leading to early disability and reduced life expectancy. Essential or primary hypotension makes up 95% of high blood pressure cases, which is abnormally elevated blood pressure that is not a result of any other medical condition. Essential hypertension arises from various factors such as diet, lifestyle, environmental and genetic influences. Despite many available medications, not all patients attain well-managed blood pressure levels. Unmanaged high blood pressure can, over time, lead to narrowing and stiffening of the blood vessels and ultimately to structural and functional changes in the blood tissues. In part, this is mediated by oxidative stress, changes in antioxidant capacity and chronic low-grade inflammation, which damage the blood vessels' endothelial tissue and result in vascular stiffness. Melatonin is one of the most potent antioxidants found in nature and has been studied in short-term trials for its blood pressure lowering, antioxidant and vascular protective effects. This small open-label randomised study sought to get a better understanding of the long-term use of melatonin. Initially, the study assessed endothelial tissue damage, oxidative status and vascular stiffness in patients with high blood pressure. Subsequently, some of the participants received a low-dose melatonin supplement (1 mg/day) for one year, whilst being monitored for clinical and structural vascular changes. The study included 23 patients and 14 in the final analysis. After one year, the results showed a significant improvement in arterial stiffness in the melatonin group (11) and an improvement in endothelial tissue function, though the latter was not at statistically significant levels. Improvement in arterial stiffness seemed to be linked to a reduction in total antioxidant capacity (TAC). These findings suggest that melatonin can contribute to restoring oxidative balance in blood plasma, which reflects improved arterial stiffness. The study also demonstrated that besides being a well-tolerated intervention, melatonin also has clinical benefits even when administered at lower doses than normal.
Abstract
Among cardiovascular diseases, hypertension is one of the main risk factors predisposing to fatal complications. Oxidative stress and chronic inflammation have been identified as potentially responsible for the development of endothelial damage and vascular stiffness, two of the primum movens of hypertension and cardiovascular diseases. Based on these data, we conducted an open-label randomized study, first, to evaluate the endothelial damage and vascular stiffness in hypertense patients; second, to test the effect of supplementation with a physiological antioxidant (melatonin 1 mg/day for 1 year) in patients with essential hypertension vs. hypertensive controls. Twenty-three patients of either gender were enrolled and randomized 1:1 in two groups (control and supplemented group). The plasmatic total antioxidant capacity (as a marker of oxidative stress), blood pressure, arterial stiffness, and peripheral endothelial function were evaluated at the beginning of the study and after 1 year in both groups. Our results showed that arterial stiffness improved significantly (p = 0.022) in supplemented patients. The endothelial function increased too, even if not significantly (p = 0.688), after 1 year of melatonin administration. Moreover, the supplemented group showed a significative reduction in TAC levels (p = 0.041) correlated with the improvement of arterial stiffness. These data suggest that melatonin may play an important role in reducing the serum levels of TAC and, consequently, in improving arterial stiffness.
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Usefulness of a Lifestyle Intervention in Patients With Cardiovascular Disease.
Broers, ER, Gavidia, G, Wetzels, M, Ribas, V, Ayoola, I, Piera-Jimenez, J, Widdershoven, JWMG, Habibović, M
The American journal of cardiology. 2020;125(3):370-375
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Modifiable (behavioural) risk factors such as sedentary lifestyle and low sleep efficiency, are associated with increased mortality risk and disease progression in individuals with cardiovascular disease. The main aim of this study was to evaluate changes in objectively measured lifestyle and health data derived from wearable devices. This study was part of an international, multicenter randomized controlled trial, the Do Cardiac Health Advanced New Generation Ecosystem 2 study. Only the participants (n=70) randomised to the intervention group were analysed. The participants received the devices to monitor their lifestyle and health parameters. Results indicate significant changes over time in the number of steps and activity level. No significant improvement over time was observed in other outcome measures (i.e., blood pressure, weight, and sleep efficiency). Secondary analysis showed demographic (gender, nationality, marital status), clinical (co-morbidities, heart failure), and psychological (anxiety, depression) profiles that were associated with lifestyle measures. Authors conclude that a personalised approach might be the way forward in order to improve health outcomes in the future.
Abstract
The importance of modifying lifestyle factors in order to improve prognosis in cardiac patients is well-known. Current study aims to evaluate the effects of a lifestyle intervention on changes in lifestyle- and health data derived from wearable devices. Cardiac patients from Spain (n = 34) and The Netherlands (n = 36) were included in the current analysis. Data were collected for 210 days, using the Fitbit activity tracker, Beddit sleep tracker, Moves app (GPS tracker), and the Careportal home monitoring system. Locally Weighted Error Sum of Squares regression assessed trajectories of outcome variables. Linear Mixed Effects regression analysis was used to find relevant predictors of improvement deterioration of outcome measures. Analysis showed that Number of Steps and Activity Level significantly changed over time (F = 58.21, p < 0.001; F = 6.33, p = 0.01). No significant changes were observed on blood pressure, weight, and sleep efficiency. Secondary analysis revealed that being male was associated with higher activity levels (F = 12.53, p < 0.001) and higher number of steps (F = 8.44, p < 0.01). Secondary analysis revealed demographic (gender, nationality, marital status), clinical (co-morbidities, heart failure), and psychological (anxiety, depression) profiles that were associated with lifestyle measures. In conclusion results showed that physical activity increased over time and that certain subgroups of patients were more likely to have a better lifestyle behaviors based on their demographic, clinical, and psychological profile. This advocates a personalized approach in future studies in order to change lifestyle in cardiac patients.