Metabolic syndrome – according to the American Heart Association, metabolic syndrome is a medical condition that can lead to heart disease, diabetes, stroke, and other health problems. The diagnosis of metabolic syndrome is met whenever a patient has three or more of the following five risk factors [What 2023]:
The risk of metabolic syndrome increases with increasing age, with being overweight or obese, and with increased insulin resistance.
High blood pressure
High blood sugar
High blood levels of triglycerides
Low blood levels of HDL cholesterol
Large waist circumference
In particular, metabolic syndrome puts the patient at increased risk of developing atherosclerosis, the condition in which the build-up of fatty deposits on the inner walls of arteries impedes blood flow and eventually restricts the flow of blood to the heart [What 2023].read more
Maintaining adequate selenium status is an acknowledged anti-aging strategy. We need selenium to live longer and to be healthier as we age. Adequate intakes of selenium and adequate bio-synthesis of selenoproteins contribute to healthy aging and to reduced vulnerability to various disorders. Selenium and selenoproteins are important for the following biological activity [Bjorklund 2022]:
antioxidant protection
enhancement of immune system function
metabolic homeostasis
Bjorklund et al estimate that selenium deficiency affects about one billion people in the world and may have a significant adverse effect on human health.
One characteristic of aging is oxidative stress.
Oxidative stress is defined as an imbalance between the damage caused by harmful free radicals and the protection offered by antioxidants. Inadequate selenium status can reduce the longevity and the health of senior citizens by accelerating the aging process and/or increasing vulnerability to immune system dysfunction, cardiovascular disease, and cancer [Bjorklund 2022].read more
Oxidative stress. A new study shows that selenium supplementation together with Coenzyme Q10 supplementation reduces the levels of systemic oxidative stress in the body. In the study, the reduction of systemic oxidative stress is significantly associated with a reduction in the risk of death from cardiovascular diseases [Dunning & Alehagen 2023].
Prof. Urban Alehagen, lead researcher on the KiSel-10 Study, the study that has shown that combined selenium and Coenzyme Q10 supplementation reduces oxidative stress and inflammation levels, improves heart function, and reduces the risk of cardiovascular disease mortality.
Oxidative stress: An imbalance of harmful free radicals vis-à-vis protective antioxidants leads to oxidative damage to DNA, lipids, and proteins in the body and to a disruption of redox signaling processes in the cells [Dunning & Alehagen 2023].
In a 2023 KiSel-10 sub-analysis, Prof. Urban Alehagen and his research colleagues investigated the level of free thiols in the serum of elderly study participants taking 200 mcg of selenium and 200 mg of Coenzyme Q10 daily for 48 months [Dunning & Alehagen 2023].read more
Viruses are very tiny germs that consist of genetic material (DNA or RNA) inside a protein coating. Unlike bacteria, viruses cannot survive on their own. They need host cells [MedlinePlus 2016].
When viruses invade the body, they hijack human cells and use the cells to reproduce themselves. The host immune system attempts to fight off the invasive viruses. If the immune system defense is not successful, then various viruses cause such infections as the common cold, influenza, and warts. Other viruses cause severe illnesses such as COVID-19, Ebola, and HIV/AIDS [MedlinePlus 2016].Antibiotics are not effective against viruses. For some few viral infections, there are effective antiviral medicines. For others, vaccines may be an option. In any case, it is important to have a strong immune system to ward off or recover from viral infections.
Harmful free radicals play an important role in viral infections. The cells’ normal metabolism of oxygen generates reactive oxygen species as a by-product. At low and stable levels, these “free radicals” play a role in cell signaling and cell functioning. In the course of viral infections, however, the over-production of free radicals can overwhelm the body’s protective antioxidant systems and can cause oxidative stress [Guillen 2019].read more
In cases of severe Covid-19 disease, patients have significantly lower concentrations of selenium and selenoprotein P and significantly higher levels of oxidative stress. That is to say, there is a more intense formation of harmful free radicals in patients with severe Covid-19 disease [Skesters 2022].
An adequate supply of selenium and zinc and vitamin D is essential for resistance to the corona viruses and to other viral infections. Here, Skesters er al show that Covid-19 patients have significantly lower levels of plasma selenium and selenoprotein P and significantly higher levels of oxidative stress.
Note: Oxidative stress is the bio-medical term for an imbalance between harmful free radical activity and protective antioxidant activity. Selenium is a key component of antioxidant selenoproteins such as the glutathione peroxidases and the thioredoxin reductases.
Role of Selenium and Selenoprotein P in Covid-19 Disease
Antioxidants. Several selenoproteins play important roles as antioxidant enzymes in the protection of the cells and the mitochondria against the oxidative damage caused by harmful free radicals. Prominent among the antioxidant seleno-enzymes are the glutathione peroxidases and the thioredoxin reductases [Alehagen 2022].
Professor Urban Alehagen, the lead researcher on the KiSel-10 Study, estimates that a daily selenium intake of 110-150 mcg per day is necessary to achieve optimal expression of selenoprotein P, one of the most important selenoproteins in the plasma and the main transporter of selenium in the blood [Alehagen 2022].Note: Oxidative stress is the bio-medical term for an imbalance in the relationship of 1) harmful free radicals, mostly of the reactive oxygen species, and 2) protective antioxidants, which should neutralize the harmful free radicals.
In many regions of the world, notably in much of Europe and the Middle East, there is selenium-poor soil and selenium-poor foodstuffs. In Sweden, for example, the average daily intake of selenium among senior citizens is approximately 35 mcg/day, well below the amounts (110–150 mcg/day) needed for an optimal expression of the selenoprotein antioxidants [Alehagen 2022]. read more
Heart failure – the inability of the heart muscle to pump a sufficient quantity of blood out to the body – is a debilitating disease, resulting in shortness of breath, congestion in the lungs, and pooling of blood in the lower extremities. Heart failure is equivalent to diminished quality of life.
Depiction of a mitochondrion. The mitochondria in our cells convert energy sources such as fatty acids, glucose, and ketones into ATP energy molecules. Sufficient intakes of micronutrients such as selenium, Coenzyme Q10, and zinc are important for mitochondrial energy production and for antioxidant protection of cells, lipids, proteins, and DNA.
The prognosis for heart failure is poor, and the available medical therapies for patients with heart failure are inadequate. New treatment strategies are needed[Mortensen 2015].
Yin et al have analyzed the data from 39,757 adults in a cross-sectional study from the 2005–2018 US National Health and Nutrition Examination Survey. Their findings suggest that high levels of combined dietary antioxidant micronutrients are associated with decreased prevalence of various forms of cardiovascular disease and that selenium has the greatest contribution to this association[Yin 2022].read more
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