:quality(70))
01
Human ageing
Human ageing is a multi-level and complex process. Science has been striving for decades to decode this process even more precisely and – if possible – to influence it. This relentless research effort has revealed the “12 signs of ageing”. There are numerous possibilities for putting this theoretical gain from longevity research into practice. Preventing these signs if ageing makes an important contribution to a long and healthy life.
02
The 12 key processes of ageing – and potential countermeasures
Ageing is influenced by a complex network of biological changes – the 12 key processes of ageing.
1. Shortening of telomeres
As we age, the ends of chromosomes, called telomeres, become shorter and can no longer protect the DNA. This can increase the likelihood of genomic instability and impair cell function.
Scientific news: According to basic studies, certain substances, such as fisetin or resveratrol, seem to stimulate the activity of the enzyme telomerase, which can lengthen the telomeres once again. It has also been possible to show telomerase-resilient effects for spermidine, although it is not yet clear whether it stimulates the telomerase or directly protects the telomeres.
2. Loss of proteostasis
Ideally, the proteins in a cell are always correctly folded and present in a suitable quantity. However, studies show that proteostasis changes with increasing age. The folding of proteins is often faulty with age. This is accompanied by a loss of proteostase function, which contributes to the development of many age-related diseases such as Alzheimer's, Parkinson's and cataracts.
Countermeasures: See point 10.
3. Genomic instability
The genome is the entirety of our genetic material and includes all genetic information in a cell. DNA is the spiral carrier of genetic information. DNA is damaged by mutations caused by environmental factors such as oxidative stress or even less efficient DNA repair mechanisms in old age. This also applies to our stem cells, which are responsible for general tissue renewal and regeneration. Damaged DNA can lead to a faulty cell function that impairs the proper function of tissues and organs.
Countermeasures: To protect our DNA, in addition to a healthy lifestyle, the absorption of various antioxidant substances is also beneficial. A mixture of various plant extracts (e.g. EGCG-rich green tea extract, OPC from grape seed extract, the antioxidant-effective enzyme SOD from melon extract), and the body’s own radical scavenger (e.g. coenzyme Q10) is particularly well suited for this, because these can both support and complement each other with their various modes of action.
4. Epigenetic changes
The epigenome is the molecular machinery that regulates the activity of our genes. So-called methylation deactivates and activates our genes. As we age, this regulatory process gets out of control. As a result, certain useful genes are turned off when they should be turned on, and genes that can cause problems are fatally turned on.
Countermeasures: In order to prevent epigenetic changes, the targeted intake of selected active substances is recommended in addition to avoiding harmful external influences (e.g. environmental toxins, free radicals). Modern longevity research is currently focused on alpha ketoglutarate (AKG), known for its role in cellular energy metabolism and its antioxidant capacity. A human study showed that the epigenetic age decreased by 8 years after taking AKG for several months
5. Chronic inflammation
Chronic inflammations that can be influenced by lifestyle factors occur more frequently as we age. These inflammations promote age-related diseases, including cardiovascular diseases, diabetes and neurodegenerative diseases.
Countermeasures: Regular exercise, sufficient sleep and a healthy diet are simple strategies to prevent chronic inflammation and early ageing. In addition, antioxidant intake reduces oxidative stress associated with inflammation. In addition, botanicals such as quercetin, berberine or betaine have direct anti-inflammatory effects and are therefore ideal for the natural control of chronic inflammation.
6. Impaired intercellular communication
Cells interact, among other things, by transduction, the signal transmission to certain receptors where the signals are converted. Extracellular signals are thus converted into specific cellular reactions. However, with age, this communication is often more difficult and becomes more error-prone.
Countermeasures: See point 10.
7. Mitochondrial dysfunction
Mitochondrial dysfunction plays an important role in age-related research. With increasing age, mitochondrial function disorders can occur, which can lead to inflammatory reactions. The mitochondria themselves are damaged by the inflammation, which can lead to a vicious cycle and contribute to a number of health problems.
Countermeasures: While exercise and a healthy calorie balance are an important factor in mitochondrial health, support with special preparations is also possible. The use of coenzyme Q10, the most important mitochondrial antioxidant, is promising. In addition, NADH, alpha ketoglutarate, ginseng extract and berberine also have mitochondrial-protecting potential.
8. Deregulated nutrient sensitivity
As we age, our cells are less exposed to nutrient signals, which affects a cell’s ability to use and produce energy. This can lead to reduced energy and metabolic disorders.
Countermeasures: See point 10.
9. Stem cell exhaustion
With increasing age, stem cells lose their function or die. Because stem cells are responsible for producing new copies of our cells as needed, a lower number or dysfunctional stem cells lead to our tissues being less well regenerated and preserved.
Countermeasures: See point 12.
10. Inhibition of macroautophagia
So-called macroautophagia inhibition occurs when a body’s cells are unable to perform cellular self-cleansing. This leads to the accumulation of damaged or dysfunctional cell components and is associated with cancer, metabolic and neurological disorders.
Countermeasures: Fasting can stimulate cellular self-cleaning (= autophagia) – but not everyone can or would like to integrate regular fasting into their daily lives. Fortunately, there are special substances that stimulate the autophagia process by activating the sirtuins. Spermidine and resveratrol are the most well-known here. More recent study data suggest that pterostilbene and quercetin are also suitable in this context. Autophagia stimulation also prevents an accumulation of damaged proteins and improves intercellular communication. Several factors of ageing are positively affected
11. Dysbiosis
The microbiome is the entirety of all microorganisms – such as bacteria, viruses, etc. – in our body. Today, we know that we live in close symbiosis with our bacteria. They affect whether we are healthy or sick and have a correspondingly strong influence on our immune system. Dysbiosis becomes more common with age – a disorder of the normal microbial community. As a result, the risk of neurodegenerative diseases or cardiovascular diseases increases with increasing age.
Countermeasures: High-dose probiotics and special prebiotics can help to restore healthy intestinal flora in dysbioses. Prolonged unhealthy colonisation can also lead to mucosal damage. In this case, special mucosal preparations containing micronutrients that protect the mucous membranes and plant extracts (e.g. L-glutamine, extracts of green tea, chamomile and grape seeds) can contribute to the restoration of an intact intestinal mucosa.
Mucosa Formula®
12. Cellular senescence
Senescent cells are former healthy cells that can no longer divide due to their advanced age. They secrete substances that damage the healthy surrounding cells. These cells, known as zombie cells, increase exponentially with age and lead to tissue and organ damage.
Scientific news: Longevity research is currently researching special substances (= senolytics) that prevent the development of senescent cells or dissolve any senescent cells that are already in existence. The flavonoids fisetin and quercetin are considered the most researched senolytics, and have shown a life-prolonging effect in animal models. Resveratrol and coenzyme Q10 can also delay the onset of senescence due to their positive effect on cell health. Through the general promotion of tissue health, these substances also contribute to another characteristic of ageing – the exhaustion of our stem cell reserves.
Conclusion: In addition to a healthy lifestyle with a balanced diet, regular exercise and a restful night’s sleep, taking botanical extracts and special micronutrients is an optimal supplement to promote healthy ageing. These nutritious tools can help counteract the signs of ageing and are therefore considered a natural support in the fight against ageing.
03
Best Age Superior: The ultimate all-in-one solution for longevity
Our Best Age Superior features an exclusive all-in-one formula, specially designed to meet modern anti-ageing needs and timeless beauty at any age.
Premium ingredients
With eleven high-quality brand raw materials
Contains alpha ketoglutarate, niacin, spermidine, fisetin, quercetin, hyaluronic acid, collagen, SOD and much more.
Best Age Superior
:quality(70))
:quality(70))
:quality(70))
:quality(70))
:quality(70))
:quality(70))
:quality(70))
:quality(70))
:quality(70))