Buy NMN Switzerland

Nicotinamide mononucleotide, abbreviated NMN, is a biologically significant molecule found in many living organisms.
Buy NMN Switzerland

VHE NMN – Nicotinamid Mononukleotid

From 119,00 CHF

VHE Resveratrol

From 239,00 CHF

What is NMN?

Nicotinamid-Mononukleotid, abgekürzt NMN, ist ein biologisch bedeutsames Molekül, das in vielen lebenden Organismen vorkommt. Es spielt eine Schlüsselrolle in mehreren zellulären Prozessen, insbesondere in der Energieproduktion und Zellregeneration. NMN ist ein Vorläufer von Nicotinamid-Adenin-Dinukleotid (NAD+), einem wichtigen Cofaktor für verschiedene enzymatische Reaktionen, die für das gesunde Funktionieren von Zellen unerlässlich sind.

Wichtige Eigenschaften und Funktionen von NMN:

NMN supports the conversion of food into energy at the cellular level.
It helps maintain DNA integrity and promotes the repair of DNA damage.
NMN is involved in processes that control and regulate cell metabolism.
Research suggests that NMN may play a role in slowing down certain aging processes by supporting NAD+ production.
It supports signaling pathways between cells, which is crucial for the smooth functioning of the body. In our online shop, we offer high-quality NMN that can be ordered from Switzerland. Our goal is to provide detailed and understandable information about NMN and its diverse functions to enable you to make an informed decision for your purchase.

Why is NMN Important?

Energy Production

Fundamental Principle: NMN plays a central role in converting food into energy, one of the most important processes in living organisms.

Metabolic Process: It supports metabolism by optimizing energy flow in cells, thus contributing to overall vitality and functionality.

Health Relevance: Efficient energy production is crucial for maintaining health and preventing metabolic disorders.

Site of Action: In the mitochondria, the powerhouses of the cells, NMN is indispensable for cellular respiration. Support by ATP Synthase: NMN promotes the function of ATP synthase, a key enzyme that produces adenosine triphosphate (ATP), the primary energy source of the cell. Effects on the Body: Efficient cellular respiration, supported by NMN, contributes to the performance and regeneration of cells, thereby influencing health and longevity.

Precursor Role: NMN is a critical precursor molecule of NAD+, which plays a role in almost all biological processes. Essential Functions: The conversion of NMN to NAD+ is crucial for DNA repair, gene regulation, and cell signaling. Long-term Health: Maintaining a balanced NAD+ level through NMN intake could be key to slowing down age-related degradation processes and promoting cell health.

Research and Development

Chemical Production: The production of NMN is a complex process that requires high precision and advanced technology. Due to the demanding synthesis pathways and the need for specialized equipment, production costs are high.
Currently, NMN is mainly available for research purposes. The scientific community is intensively investigating its potential applications in medicine and biotechnology. Due to limited production and high costs, NMN is not yet widely available in the commercial sector.
Scientists around the world are researching the diverse functions of NMN in the human body. Special interest is given to the role of NMN in slowing down the aging process, improving cell function, and the potential treatment of age-related diseases.
Ongoing research aims to develop more efficient manufacturing processes to improve the availability and affordability of NMN. There are also efforts to expand the therapeutic applications of NMN, which could increase its significance in medicine and healthcare.
Research institutes, universities, and biotech companies are collaborating to expand understanding and applications of NMN. This collaboration fosters innovation and accelerates the development of new applications for NMN.
The increasing importance of NMN in research has also led to discussions about regulatory frameworks. Scientists and regulatory authorities are working together to develop guidelines for the safe and ethical use of NMN in research and therapy.

The Enzyme NAD+ and Its Comprehensive Importance

Was ist NAD+? 

What is NAD+? Nicotinamide adenine dinucleotide, abbreviated as NAD+, is a coenzyme present in almost all living cells. It plays a central role in biochemistry and supports numerous vital processes.

Energy Conversion: NAD+ is crucial in converting nutrients into energy, a process that occurs in the mitochondria of the cell.
Support of Enzymes: It acts as a helper molecule for various enzymes that catalyze chemical reactions in the body.
Signal Transmission: NAD+ serves as a signaling molecule, regulating important cellular processes.

DNA Repair: A key factor in repairing DNA damage caused by environmental influences or the aging process.
Cell Integrity: Maintains the health and function of cells by aiding in the regulation of cell metabolism and communication.
Age-Related Diseases: Low NAD+ levels are associated with various age-related diseases, highlighting the importance of sufficient supply.
Connection with Aging: Research suggests that NAD+ levels in the body decrease with age, leading to a reduction in cellular energy production and an increased risk of age-related diseases. NMN, as a precursor to NAD+, could play an important role in this context to increase NAD+ levels, thus promoting cellular health and vitality.

Aging and NAD+ Levels

As one ages, the level of NAD+ in the body decreases. This decline is associated with various age-related problems, such as increased susceptibility to DNA damage. These damages are caused by environmental factors like UV radiation or errors in DNA replication. A reduced concentration of NAD+ can impair the ability of cells to efficiently repair these damages, leading to an accumulation of defective DNA. This process is often seen as one of the main factors in biological aging.
NAD+ plays a crucial role in numerous cellular functions, especially in energy production, DNA repair, and regulation of cellular stress responses. Therefore, maintaining sufficient NAD+ levels is vital for preserving the integrity and functionality of cells. Furthermore, NAD+ is a key co-factor for the activity of sirtuins, a group of enzymes associated with longevity and protection against age-related diseases.
Due to its role as a precursor of NAD+, NMN is viewed in the scientific community as a promising approach for combating age-related ailments and diseases. By supplementing with NMN, it might be possible to increase the NAD+ levels in the body, which in turn could improve cell health and potentially slow down the aging process. However, research in this area is still ongoing, and further studies are needed to fully understand and validate the effectiveness and safety of NMN as a therapeutic agent.

NMN in Switzerland – Future of Research and Development

Key Role in Medical Research: NMN is a promising candidate in the study of age-related diseases and could open new avenues in treatment and prevention. Focus on Cell Health and Longevity: Researchers are investigating how NMN affects NAD+ levels and thus could contribute to the maintenance of cell health and potentially extend lifespan. Innovative Therapeutic Approaches: The research focuses on utilizing NMN as a therapeutic agent, particularly concerning neurodegenerative diseases and metabolic disorders.
Synthetic Production: Advances in synthetic biology could make the production of NMN more efficient and cost-effective. Clinical Studies: Conducting comprehensive clinical studies in Switzerland will be crucial to assess the effectiveness and safety of NMN-based treatments. Regulatory Aspects: Collaboration with health authorities to ensure compliance with safety and quality standards.
Personalized Medicine: Exploring the possibility of incorporating NMN into personalized health plans, based on individual biological characteristics and needs. Partnerships with Universities and Research Institutions: Collaborating with leading scientific institutions to further advance research on NMN and its applications. Public Education and Information: Promoting understanding and awareness of NMN and its potential benefits among the Swiss population.

Buy NMN Switzerland - FAQs

NMN is a biochemical molecule that serves as a precursor to NAD+, an essential co-factor for various enzymatic reactions. It plays a crucial role in energy production and cellular respiration.
Research on NMN is central to understanding cellular processes and potential therapies against age-related diseases. NMN could influence key mechanisms of cellular aging.
When buying NMN in Switzerland, be prepared for additional costs such as customs and value-added tax.
A declining level of NAD+ in the body is associated with signs of aging and an increased risk of DNA damage. NMN, as a precursor, can help stabilize NAD+ levels.
Future research will focus on the potential health benefits of NMN and its role in the prevention and treatment of age-related diseases.

The dosage of NMN can vary depending on age:

For individuals up to 50 years old, a daily dose of 1 gram is recommended.
From the age of 50, the dosage can be increased to 2 grams per day. These recommendations are based on current research and may change with new scientific findings. It is advisable to consult a health professional before taking NMN.

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