1.
Evidence for the Benefits of Melatonin in Cardiovascular Disease.
Tobeiha, M, Jafari, A, Fadaei, S, Mirazimi, SMA, Dashti, F, Amiri, A, Khan, H, Asemi, Z, Reiter, RJ, Hamblin, MR, et al
Frontiers in cardiovascular medicine. 2022;9:888319
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Cardiovascular disease (CVD) encompasses a group of disorders involving blood vessels or the heart. The beneficial effects of melatonin [hormone] in treating various human diseases have been broadly investigated. Melatonin is an indoleamine-derived molecule, which is synthesised at night. The aim of this review was to point out therapeutic potentials of melatonin in the treatment of CVDs with an emphasis on the molecular mechanisms of action. This review shows that: - nearly all the studies have reported positive effects of melatonin on cardiovascular physiology, and the prevention of damage to the myocardium after heart attack, reperfusion injury, or sepsis. - melatonin can help blood pressure and heart arrhythmia. - some clinical trials indicated that the utilization of melatonin in CVDs is associated with more inconsistencies regarding its cardioprotective effects. Authors conclude that further preclinical and clinical studies are required to better delineate the cardiovascular benefits of melatonin.
Abstract
The pineal gland is a neuroendocrine gland which produces melatonin, a neuroendocrine hormone with critical physiological roles in the circadian rhythm and sleep-wake cycle. Melatonin has been shown to possess anti-oxidant activity and neuroprotective properties. Numerous studies have shown that melatonin has significant functions in cardiovascular disease, and may have anti-aging properties. The ability of melatonin to decrease primary hypertension needs to be more extensively evaluated. Melatonin has shown significant benefits in reducing cardiac pathology, and preventing the death of cardiac muscle in response to ischemia-reperfusion in rodent species. Moreover, melatonin may also prevent the hypertrophy of the heart muscle under some circumstances, which in turn would lessen the development of heart failure. Several currently used conventional drugs show cardiotoxicity as an adverse effect. Recent rodent studies have shown that melatonin acts as an anti-oxidant and is effective in suppressing heart damage mediated by pharmacologic drugs. Therefore, melatonin has been shown to have cardioprotective activity in multiple animal and human studies. Herein, we summarize the most established benefits of melatonin in the cardiovascular system with a focus on the molecular mechanisms of action.
2.
Dietary supplements in neurological diseases and brain aging.
Naureen, Z, Dhuli, K, Medori, MC, Caruso, P, Manganotti, P, Chiurazzi, P, Bertelli, M
Journal of preventive medicine and hygiene. 2022;63(2 Suppl 3):E174-E188
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The rate of neurodegenerative diseases (ND) is increasing at a concerning rate. The condition is characterized by the progressive decline of neuron function in the brain, eventually leading to cognitive impairment and motorneuron disorders. This process appears to be mediated by the complex interplay of factors. The brain is extremely sensitive to oxidative stress, and oxidative stress and inflammation of the nervous tissue appear to be a common denominator in all neurodegenerative diseases. One of the challenges of ND for prevention as well as treatment and treatment development, is that the initial disease progression usually goes unnoticed, with symptoms only becoming apparent in the more advanced stages when irreversible damage has occurred. Diet quality has a significant impact on brain health and hence can also influence ND development. For example, the Mediterranean diet (MedDiet) has demonstrated many valuable attributes that can reduce ND incidences and improve cognitive function. This review looked at dietary components, natural compounds and medicinal plants that have shown to be beneficial for brain health in ND. The authors discussed the MedDiet followed by a brief review of dietary supplements, including N-acetylcysteine (NAC), phospholipids (Phosphatidylserine, Phosphatidylcholine), Gamma-aminobutyric acid, melatonin, omega-3 fatty acids, neurotropic vitamin B (B1, B6 and B12), S-adenosyl methionine (SAMe), the amino acid tryptophan, magnesium and various polyphenols. Several medicinal plants are reviewed that have demonstrated positive effects on preventing or alleviating neurological diseases. This includes Withania somnifera (Ashwagandha), Baccopa monnieri (Brahmi), Acorus calamus (Calamus) and Hypericum perforatum (St. Johns Wort). The review concluded that many bioactive compounds and plant constituents that can be obtained from a qualitative diet, as well as certain medicinal plants and supplements, can help preserve and promote brain health and prevent the onset of ND. Large clinical trials are needed to assess their suitability for their wider use.
Abstract
A healthy diet shapes a healthy mind. Diet quality has a strong association with brain health. Diet influences the onset and consequences of neurological diseases, and dietary factors may influence mental health at individual and population level. The link between unhealthy diet, impaired cognitive function and neurodegenerative diseases indicates that adopting a healthy diet would ultimately afford prevention and management of neurological diseases and brain aging. Neurodegenerative diseases are of multifactorial origin and result in progressive loss of neuronal function in the brain, leading to cognitive impairment and motoneuron disorders. The so-called Mediterranean diet (MedDiet) with its healthy ingredients rich in antioxidant, anti-inflammatory, immune, neuroprotective, antidepressant, antistress and senolytic activity plays an essential role in the prevention and management of neurological diseases and inhibits cognitive decline in neurodegenerative diseases such as Alzheimer's, Parkinson's and Huntington's diseases. The MedDiet also modulates the gut-brain axis by promoting a diversity of gut microbiota. In view of the importance of diet in neurological diseases management, this review focuses on the dietary components, natural compounds and medicinal plants that have proven beneficial in neurological diseases and for brain health. Among them, polyphenols, omega-3 fatty acids, B vitamins and several ayurvedic herbs have promising beneficial effects.
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Endocrine and metabolic aspects of the COVID-19 pandemic.
Marazuela, M, Giustina, A, Puig-Domingo, M
Reviews in endocrine & metabolic disorders. 2020;21(4):495-507
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Endocrine and metabolic related diseases such as diabetes and obesity may increase the risk of developing severe Covid-19 and as a result these diseases could be severely affected by Covid-19 infection. This very large review paper looked at over 100 studies and outlined the interrelationship between Covid-19 infection and several endocrine diseases. Diabetes, obesity, pituitary-hypothalamic function, thyroid function, Cushing's syndrome and adrenal function were all reviewed. No aim was stated. Data on individuals with obesity and diabetes indicated an increased risk for severe Covid-19 infection, hospitalisation and mortality. Data surrounding pituitary-hypothalamic function, thyroid function, Cushing's syndrome and adrenal function was less abundant, however neurological issues in Covid-19 patients suggested an involvement of the pituitary and hypothalamus. In lieu of sufficient data the author commented on the possible similarities between severe acute respiratory syndrome coronavirus with the Covid-19 virus. A number of management strategies were discussed such as the use of vitamin D, oxytocin and melatonin, however the authors commented on the lack of data regarding oxytocin and melatonin in Covid-19 patients, but mechanistic data suggested they might be of use. No overall conclusions were drawn on the findings. Clinicians could use this paper to understand how patients with pre-existing endocrine and metabolic conditions may be at a higher risk of more severe Covid-19 and if contracted could exacerbate their pre-existing condition. These patients could require constant monitoring and additional measures to avoid contracting Covid-19. Supplements such as vitamin D, oxytocin or melatonin could be therapeutic, however more data needs to be reviewed.
Abstract
COVID-19 infection has tremendously impacted our daily clinical practice as well as our social living organization. Virtually all organs and biological systems suffer from this new coronavirus infection, either because the virus targets directly specific tissues or because of indirect effects. Endocrine diseases are not an exception and some of endocrine organs are at risk of direct or indirect lesion by COVID-19. Although there is still no evidence of higher predisposition to contract the infection in patients with diabetes and/or obesity, the coexistence of these conditions contributes to a worse prognosis because both conditions confer an impaired immunologic system. Cytokines storm can be amplified by these two latter conditions thereby leading to multisystemic failure and death. Glycaemic control has been demonstrated to be crucial to avoiding long hospital stays, ICU requirement and also prevention of excessive mortality. Endocrine treatment modifications as a consequence of COVID-19 infection are required in a proactive manner, in order to avoid decompensation and eventual hospital admission. This is the case of diabetes and adrenal insufficiency in which prompt increase of insulin dosage and substitutive adrenal steroids through adoption of the sick day's rules should be warranted, as well as easy contact with the health care provider through telematic different modalities. New possible endocrinological targets of COVID-19 have been recently described and warrant a full study in the next future.
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Bridging the Reciprocal Gap between Sleep and Fruit and Vegetable Consumption: A Review of the Evidence, Potential Mechanisms, Implications, and Directions for Future Work.
Noorwali, E, Hardie, L, Cade, J
Nutrients. 2019;11(6)
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Both sleep disruption and a low intake of fruit and vegetables (FV) are associated with higher rates of premature death and chronic disease. This review looked at previous studies in order to determine whether there is a link between sleep and FV consumption. A recent meta-analysis found that shorter sleep duration is consistently associated with low fruit and vegetable intake in children, but in adults the association is less clear. Studies looking at the effect of sleep on FV intake had variable results. Tart cherries and kiwi fruits were the most commonly studied fruits for their effect on sleep measures. Observational studies tended to find that both short- and long-sleepers tend to eat less FV than those that sleep for 7-8 hours. A lot of evidence shows that people who go to sleep later (‘owls’) tend to consume unhealthier diets with lower intakes of FV than people who go to bed earlier (‘larks’). The researchers also looked at potential mechanisms for the association between sleep and FV intake. Polyphenols in FV may influence sleep by increasing neurotransmitters via the gut-brain axis, improving energy metabolism and through alterations in circadian rhythms and the CLOCK genes. Ways in which disrupted sleep may affect FV consumption included changes in hunger hormones, emotional stress and impaired decision making. With further research, interactions between sleep measures and FV consumption may be clarified and potentially reduce the burden of chronic diseases and premature deaths.
Abstract
A substantial burden of disease and mortality globally is attributable to both sleep disruption and low intakes of fruit and vegetable (FV) and there is increasing mechanistic and epidemiological evidence to support a reciprocal relationship between the two. This review provides an overview of experimental and observational studies assessing the relations between sleep and FV consumption from 52 human adult studies. Experimental studies are currently limited and show inconsistent results. Observational studies support a non-linear association with adults sleeping the recommended 7-9 hours/day having the highest intakes of FV. The potential mechanisms linking sleep and FV consumption are highlighted. Disrupted sleep influences FV consumption through homeostatic and non-homeostatic mechanisms. Conversely, FV consumption may influence sleep through polyphenol content via several potential pathways. Few human experimental studies have examined the effects of FV items and their polyphenols on sleep and there is a need for more studies to address this. An appreciation of the relationship between sleep and FV consumption may help optimize sleep and FV consumption and may reduce the burden of chronic diseases. This review provides implications for public health and directions for future work.