top of page

Stem Cell Revolution: Unlocking Fasting's Impact


stem cell and fasting

It has been widely known for a long time that consuming fewer calories can contribute to a longer life in humans. However, recent research by scientists has revealed that fasting can actually change the way our bodies use fuel, switching from glucose to fatty acids. This change in metabolism appears to activate our stem cells, making them more active and capable of regeneration in the field of regenerative medicine.

A study states that:

According to research, mice that underwent multiple cycles of fasting experienced a reduction in the suppression of their immune system and a decrease in mortality caused by chemotherapy. Additionally, fasting was found to reverse the age-related deficiency in the regeneration of myeloid cells, which are responsible for cell renewal. These findings align with preliminary data that suggests fasting may also protect white blood cells from the toxic effects of chemotherapy in fasting patients.

What is fasting?

Fasting, which involves abstaining from eating for a prolonged period, is known to offer cellular benefits to patients. To experience these benefits, one should fast for at least 24 to 48 hours. During the fasting period, it is important for patients to avoid consuming any calories but staying hydrated by drinking water, caffeine-free coffee, or tea is allowed. Prior to starting a fasting program, it is always advisable for patients to consult with a doctor familiar with FDA-approved treatments for new blood cells.


The production of stem cells can be enhanced through the practice of fasting.

Scientists from MIT conducted a study that demonstrated a significant increase in the regenerative capabilities of pluripotent stem cells when the individual was in a state of fasting. Specifically, blood stem cells obtained after the fasting period exhibited a twofold enhancement in their ability to regenerate. This implies that the pluripotent stem cells were able to multiply and grow more efficiently. Interestingly, this discovery was observed in both older and younger subjects alike. These noteworthy findings were documented following a relatively short fasting period of only 24 hours.

For many years, studies have shown a connection between consuming fewer calories and living longer in humans and other organisms. The scientists at MIT were curious about how fasting affects the body at a molecular level, specifically in the intestines. This research is important for stem cell research and understanding DNA. Additionally, the FDA closely monitors these studies.

Applying these discoveries to treatment plans involving pluripotent stem cells (PSCs) can greatly enhance the potential advantages for patients. PSCs have the ability to differentiate into various cell types, making them a valuable resource for medical treatments. By harnessing the pluripotency of these cells, innovative treatments can be developed to address a wide range of conditions and diseases.

Learn more about the possibilities of using mesenchymal stem cells (MSCs) in a clinical setting for their pluripotent properties and potential applications in blood-related therapies.

The impact of nutrition on inflammation

The impact of nutrition on inflammation: How food affects our body's inflammatory response.

In stem cell treatments, nutrition plays a crucial role in addressing inflammation, the root cause of various human diseases. By making dietary adjustments, patients can potentially reduce inflammation naturally, enabling their own or transplanted ESCs to function unhindered. Certain anti-inflammatory antioxidants like ECGC in green tea, curcumin in turmeric, and sulforaphane in broccoli have shown their ability to inhibit the response of T-cells, the white blood cells responsible for some autoimmune disorders. A recent study by Vitro Biopharma Inc, a stem cell lab in Colorado, quantified the impact of these compounds on ESC activation. The results revealed that ESCs exposed to these compounds exhibited a response over 25 times greater than those not given the compounds.

Stem cell "fast" facts

From the moment we are born, our bodies contain pluripotent stem cells (PSCs) that work tirelessly to repair inflammation, damage, and diseased tissues. These remarkable PSCs not only reproduce within our bodies but also age alongside us. Unfortunately, with each new generation of PSCs, their pluripotency diminishes. As time goes on, the number of PSCs decreases and their potency wanes. This natural aging process affects all humans. However, there are certain dietary and lifestyle choices that can either encourage or hinder the activity of PSCs in our bodies, particularly in the context of blood.

Prior to undergoing stem cell treatment, it is advisable for patients to adhere to an anti-inflammatory diet and restrict their consumption of alcohol, tobacco, caffeine, and any other substances that may interfere with the effectiveness of the ESCs. This is important because the FDA has strict regulations in place to ensure the safety and efficacy of treatments involving human cells, including embryonic stem cells.

The reason why patients are required to refrain from eating before undergoing stem cell therapy.


VIMED CELL is a fully licensed stem cell therapy clinic in Germany and Switzerland. As a European Territory, healthcare regulations are stringent, on par with the U.S. and U.K.. Additionally, our entire medical staff is fully registered and licensed, and our stem cell protocols are reviewed and approved.

Stem cell therapies are gaining popularity among those seeking natural remedies for various health issues. The field of Regenerative Medicine, which utilizes pluripotent stem cells (PSCs) for treatment, continues to evolve and make progress each year.

Increasing the production of natural stem cells: a guide

When patients contemplate stem cell therapy, they often have numerous inquiries regarding the source and role of ESCs. Although the aim of contemporary stem cell therapy is to introduce additional pluripotent stem cells, it is crucial to acknowledge that our bodies already possess a reservoir of these pluripotent cells. Research has identified several approaches to maximize the efficacy of our existing stem cells in facilitating healing. Two primary strategies for unlocking the complete potential of our stem cells involve fasting and adhering to a proper diet for treatment.

It has been widely known for a while that consuming fewer calories can contribute to a longer lifespan in humans. However, recent research has revealed that fasting can actually cause a shift in our metabolism, where our bodies start using fatty acids instead of glucose as a source of energy. This metabolic change seems to have a positive effect on our embryonic stem cells (ESCs), making them more active and capable of regeneration. This discovery has also played a significant role in the growing popularity of the Keto Diet, which is known for its ability to promote pluripotency in ESCs. Additionally, the FDA has taken an interest in studying the effects of fasting on stem cells and its potential applications in medical research and therapies.

Ways to boost the production of stem cells with the help of supplements

There is limited scientific proof to back up the idea that supplements can enhance the production of embryonic stem cells (ESCs) in the body. Certain supplements have been suggested for this purpose, including those that can promote pluripotency and the generation of pluripotent cells.


  1. Resveratrol: Which can be found in grapes, wine, and certain plants, has been proven to possess properties that can reduce inflammation and act as an antioxidant. Moreover, it has the potential to enhance the generation of stem cells within the bone marrow.

  2. Coenzyme Q10: This particular nutrient plays a role in the body's energy production and has been found to possess properties that can counteract oxidation and reduce inflammation. Research indicates that it might have the ability to stimulate the generation of stem cells within the bone marrow.

  3. Curcumin: Turmeric, a spice, contains a substance that possesses qualities of reducing inflammation and acting as an antioxidant. It has the potential to encourage the generation of stem cells in the bone marrow.

  4. Quercetin: Research has indicated that this particular compound found in plants possesses properties that can reduce inflammation and act as an antioxidant. Furthermore, it has the potential to promote the generation of stem cells within the bone marrow.

  5. Vitamin D: When the skin is exposed to sunlight, it triggers the production of a nutrient in the body. This nutrient has been proven to stimulate the creation of stem cells in the bone marrow.

It is crucial to exercise caution when using adult supplements because they can have interactions with medications and cause unwanted effects. If you are considering the utilization of pluripotent supplements to enhance the production of escs, it is vital to consult a qualified healthcare professional and carefully evaluate the potential advantages and disadvantages. Additionally, make sure to comply with any relevant guidelines set by the FDA.

explanation on stem cells

An explanation of stem cells: What exactly are they?

Stem cells, including embryonic stem cells (ESCs), are pluripotent and undifferentiated cells present in the body. They have the ability to travel throughout the body, identify damaged areas and inflammation, and replace older cells, leading to tissue regeneration. These cells can be found in various parts of the body such as bone marrow, adipose tissue, and even teeth. However, as we age, the production of stem cells decreases, and their effectiveness also diminishes. To regain the same benefits as we did in our younger years, it becomes necessary to supplement or activate our stem cells at higher levels, especially during the G1 phase of the cell cycle.

‍‍

VIMED CELL Clinics


VIMED CELL, a leading provider of stem cell therapy, offers convenient treatment options for medical tourists. With clinics in Switzerland and Germany, we specialize in utilizing pluripotent embryonic stem cells (ESCs) and somatic cells. Our proven and tested protocols ensure effective results. Check our website to determine your eligibility and get in touch with us.

bottom of page