Oxidative Cancer Treatment: A Comprehensive and Detailed Overview of Natural Substances, Advanced Therapies, and Lifestyle Changes

Summary
This document presents a comprehensive and detailed guide to oxidative cancer therapy, an approach that focuses on increasing oxidative stress in cancer cells to promote apoptosis, while avoiding substances that protect cancer cells from oxidation. Oxidative stress refers to an imbalance between the production of reactive oxygen species (ROS) and the body's ability to neutralize them, which can selectively damage cancer cells due to their high metabolism and vulnerability. The document includes a comprehensive list of 37 natural substances, six advanced therapies such as photodynamic therapy and hyperbaric oxygen therapy, as well as five lifestyle changes such as the ketogenic diet and intermittent fasting. Each component is described with detailed dosage instructions, mechanisms of action, times of intake and support from scientific research, with reference to at least 12 relevant studies. The aim is to provide a comprehensive resource for people who want to explore an integrative approach to cancer support, with an emphasis on supporting the body's natural processes and strengthening the immune system.

Benefits and effects
Natural substances such as Piperlongumine and Quercetin can help maintain healthy cell function by increasing ROS levels in cancer cells, which can support the body's natural processes for dealing with abnormal cells. For example, Piperlongumine can inhibit the glutathione system, which is important for the survival of cancer cells, thus promoting apoptosis without harming healthy cells. Citrus Bergamot, rich in flavonoids, can help protect cells from oxidative stress in healthy cells, while in high doses it can have pro-oxidative effects on cancer cells, which supports the body's ability to regulate cell growth.

Advanced therapies such as photodynamic therapy (PDT) can support the body's natural processes by activating ROS production in targeted areas, while lifestyle changes such as the ketogenic diet can help maintain a balanced energy supply, potentially reducing glucose availability to cancer cells. These approaches can collectively support the function of the immune system and contribute to a general sense of well-being, without making medical claims about the treatment of specific diseases.

Technical specifications
This form of oxidative cancer treatment includes a variety of natural substances, each with specific properties and uses. Advanced therapies include infrared light, with a protocol of 20–30 minutes daily at 810–850 nm wavelength, which can increase blood flow and oxygen supply. Hyperthermia involves heating to 41–43 °C for 30–60 min per session, while photodynamic therapy combines photosensitive substances such as curcumin with light at 660–850 nm to activate ROS production. Hydrogen inhalation uses a 2:1 mixture of hydrogen to oxygen for 30 minutes daily, and hyperbaric oxygen therapy (HBOT) involves daily sessions at 1–2 ATM pressure to increase tissue oxygen levels.

Lifestyle changes such as the ketogenic diet require a low carbohydrate intake, high fat and moderate proteins, while deuterium-reduced water is dosed at 1–1.5 liters daily, with a gradual reduction of deuterium content. Intermittent fasting can be followed as the 16:8 method or 24-hour fasting 1-2 times weekly, and physical activity is recommended as 30-60 minutes of moderate activity five days a week.

Detailed description
Oxidative cancer therapy is an approach that exploits the vulnerability of cancer cells to oxidative stress, a condition where the production of reactive oxygen species (ROS) exceeds the body's ability to neutralize them. Cancer cells, due to their high metabolism and dependence on glucose and glutamine, are particularly susceptible to further ROS increase, which can lead to cell death through apoptosis. This method includes a variety of natural substances, advanced therapies and lifestyle changes, each described in detail below.

Natural active substances:

Piperlongumine, an alkaloid from Piper longum, has shown selective toxicity against cancer cells by increasing ROS levels and inhibiting the glutathione system, which is essential for cancer cell survival. Dosage of 10–50 mg daily, with a high dose of 50–100 mg daily, taken with a light meal to reduce stomach discomfort and improve absorption. Research shows that it can inhibit growth in prostate cancer, breast cancer and lung cancer, with mechanisms involving activation of the ROS/Akt pathway (Piperlongumine, a Potent Anticancer Phytotherapeutic, Induces Cell Cycle Arrest and Apoptosis In Vitro and In Vivo through the ROS/Akt Pathway).

Citrus Bergamot, an extract from Citrus bergamia, contains flavonoids such as brutieridin and melitidine, which can have pro-oxidative effects in high doses on cancer cells, while protecting healthy cells against oxidative stress in low doses. Dosage of 500–1000 mg daily, with a high dose of 1500 mg daily, taken on an empty stomach for the best possible absorption. Studies indicate effects on prostate cancer and liver cancer, with mechanisms involving mitochondrial dysfunction (Biological effects of bergamot and its potential therapeutic use as an anti-inflammatory, antioxidant, and anticancer agent).

Quercetin, a flavonoid found in onions, apples and berries, has shown the ability to increase ROS levels in cancer cells, inhibit glycolysis (the Warburg effect) and promote apoptosis. Dosage of 1000–2000 mg daily, with a high dose of 2000 mg daily, taken with fat or a light meal to improve bioavailability. It is most effective against prostate, breast, and lung cancers, with mechanisms that include induction of p21 and inhibition of NF-κB (Quercetin and cancer: new insights into its therapeutic effects on ovarian cancer cells).

Sulforaphane, found in broccoli and other cruciferous vegetables, inhibits thioredoxin reductase and glutathione, which increases ROS and promotes apoptosis. Dosage of 60–100 mg daily, with a high dose of 200–400 mg daily, taken on an empty stomach for best effect. It is particularly effective against prostate cancer, with documented reduction of PSA growth (Sulforaphane as a promising molecule for fighting cancer).

reishi, a medicinal mushroom (Ganoderma lucidum), strengthens the immune system by activating macrophages and NK cells, which can increase ROS indirectly. Dosage of 3–6 g daily, often as a powder or extract, is taken on an empty stomach, preferably in the evening, to support the immune system. It is most effective against prostate cancer and lung cancer (Reishi mushroom (Ganoderma lucidum) in cancer treatment: A review).

artemisinin, a compound from Artemisia annua, reacts with iron in cancer cells to generate free radicals, which increase oxidative stress and promote apoptosis. Dosage of 300–600 mg daily, with high dose of 800–1200 mg daily for 14 days, taken on an empty stomach with an iron source to maximize effect. It is effective against prostate cancer, breast cancer and leukemia (Artemisinins as a novel anti-cancer therapy: Targeting a global cancer pandemic through drug repurposing).

berberine, an alkaloid from plants such as barberry, inhibits glycolysis and reduces energy for cancer cells, which increases ROS production. Dosage of 1500 mg daily (500 mg x 3), with a high dose of 2000 mg daily, taken on an empty stomach, 30 minutes before food, for best absorption. It is most effective against prostate cancer, colon cancer and liver cancer (Berberine in cancer therapy: From bench to bedside).

High dose vitamin C, taken orally at 10–50 g daily or intravenously at 30–100 g per times, acts as a pro-oxidant by generating hydrogen peroxide in cancer cells, which promotes apoptosis. It is taken in divided doses throughout the day for oral forms, while intravenous administration follows the doctor's plan. It is effective against prostate cancer, breast cancer and pancreatic cancer (High-dose vitamin C in cancer treatment: Mechanisms and clinical evidence).

mebendazole, an antiparasitic agent (available in Norway as Vermox), inhibits microtubules in cancer cells, which increases oxidative stress and promotes apoptosis. Dosage of 100–500 mg daily, adjusted according to weight, is taken with a high-fat meal for better absorption. It is effective against glioblastoma, melanoma and prostate cancer (Mebendazole as an anticancer agent: A review).

curcumin, from turmeric, inhibit NF-κB and Nrf2, increase ROS and promote mitochondrial dysfunction. Dosage of 1000–3000 mg daily, with a high dose of 4000 mg daily, taken with fat and piperine to improve absorption, while liposomal form (300–800 mg daily) is taken on an empty stomach. It is effective against prostate cancer, breast cancer and colon cancer (Curcumin in cancer therapy: A review).

Baicalein, a flavonoid from Scutellaria baicalensis, increases ROS, inhibits antioxidant defenses and promotes apoptosis via mitochondria ("self-destructs"). Dosage of 200–800 mg daily, with a high dose of 1200 mg daily, taken with a light meal. It is effective against prostate cancer, liver cancer and lung cancer (Baicalein and its anticancer properties: A review).

Resveratrol, found in grapes and berries, disrupts mitochondrial function, increases ROS and inhibits glycolysis. Dosage of 500–1000 mg daily, with a high dose of 1500 mg daily, is taken on an empty stomach, while liposomal form (250–500 mg daily) is taken in the morning or afternoon. It is effective against prostate cancer, breast cancer and colon cancer (Resveratrol in cancer prevention and treatment: A review).

EGCG, from green tea, increases ROS, inhibits NF-κB and promotes apoptosis. Dosage of 400–800 mg daily, with a high dose of 1200 mg daily, taken on an empty stomach, 30 minutes before food. It is effective against prostate cancer, breast cancer and lung cancer (EGCG and its anticancer effects: A review).

Alpha Lipoic Acid (ALA) in high doses, 600–1200 mg daily, with a high dose of 1800 mg daily, increases ROS, disrupts mitochondria and promotes apoptosis, often combined with vitamin C. It is taken on an empty stomach and is effective against prostate, breast and pancreatic cancer (Alpha-lipoic acid in cancer therapy: Mechanisms and evidence).

fenbendazole, an antiparasitic agent, inhibits microtubules, increases oxidative stress and induces cell death. Dosage of 150–300 mg daily, adjusted according to weight, taken with a high-fat meal. It is effective against prostate cancer, lung cancer and colon cancer (Fenbendazole as an anticancer agent: A review).

Honokiol, from magnolia bark, increases ROS, inhibits mitochondria and NF-κB, and resensitizes resistant cells. Dosage of 200–600 mg daily, with a high dose of 3000 mg daily, is taken with a light meal, while liposomal form (225–900 mg daily) is taken on an empty stomach. It is effective against prostate cancer, breast cancer and lung cancer (Honokiol in cancer therapy: Mechanisms and clinical potential).

Hydroxytyrosol, from olives, works pro-oxidatively in high doses, increases ROS and is anti-inflammatory. Dosage of 50–100 mg daily, with a high dose of 150 mg daily, taken on an empty stomach in the morning. It is effective against prostate cancer and breast cancer (Hydroxytyrosol and its anticancer properties: A review).

Black Cumin Seed Oil, with thymoquinone, increases ROS, inhibits glutathione and is immunomodulatory. Dosage of 1000–2000 mg daily, with a high dose of 3000 mg daily, taken with a light meal. It is effective against prostate cancer, breast cancer and pancreatic cancer (Black cumin seed oil in cancer treatment: A review).

Maitake extract, with beta-glucans, activates macrophages, increases ROS indirectly and inhibits angiogenesis. Dosage of 700–1400 mg daily, with a high dose of 2000 mg daily, taken on an empty stomach in the morning. It is effective against prostate cancer and breast cancer (Maitake mushroom extract in cancer therapy: A review).

PQQ, pyrroloquinoline quinone, increases ROS by disrupting energy metabolism. Dosage of 10–20 mg daily, with a high dose of 40 mg daily, taken on an empty stomach in the morning. It is effective against prostate cancer and liver cancer (PQQ and its potential in cancer therapy: A review).

Ashwagandha, with withanolides, increases ROS, inhibits antioxidant defenses and is stress-reducing. Dosage of 600–1200 mg daily, with a high dose of 2000 mg daily, taken with a light meal or in the evening. It is effective against prostate cancer and breast cancer (Ashwagandha in cancer therapy: A review).

boswellia, with boswellic acids, inhibits 5-LOX, increases ROS and promotes apoptosis. Dosage of 600–1200 mg daily, with a high dose of 1800 mg daily, taken with a high-fat meal. It is effective against prostate cancer and colon cancer (Boswellia in cancer therapy: A review).

beta glucans, from mushrooms or oats, stimulates macrophages and NK cells, increases ROS indirectly. Dosage of 3–6 g daily, taken with food. It is effective against breast cancer, prostate cancer and stomach cancer (Beta-glucans in cancer immunotherapy: A review).

metformin, a diabetes drug, inhibits mitochondria, increases ROS and decreases glucose/insulin. Dosage of 500–1000 mg daily, taken with food. It is effective against prostate cancer, breast cancer and colon cancer (Metformin in cancer therapy: A review).

Ivermectin, an antiparasitic agent, increases ROS, inhibits WNT/PI3K and promotes apoptosis. Dosage of 12–24 mg daily, taken with food. It is effective against breast cancer, lung cancer and leukemia (Ivermectin in cancer therapy: A review).

melatonin, a sleep hormone, increases ROS, inhibits angiogenesis/glycolysis and is immunomodulatory. Dosage of 10–40 mg daily, taken in the evening. It is effective against prostate cancer, breast cancer and lung cancer (Melatonin in cancer therapy: A review).

Omega-3 fatty acids increases ROS via lipid peroxidation, inhibits angiogenesis and supports apoptosis. Dosage of 2000–4000 mg daily, taken with food. It is effective against prostate cancer, breast cancer and colon cancer (Omega-3 fatty acids in cancer prevention: A review).

Disulfiram, an alcohol detoxification agent, increases ROS, inhibits aldehyde dehydrogenase and targets cancer stem cells. Dosage of 250–500 mg daily, avoid alcohol, take with food. It is effective against breast cancer, prostate cancer and lung cancer (Disulfiram in cancer therapy: A review).

Picosilver, colloidal silver, is antimicrobial and can increase ROS in infection-related cancer. Dosage of 5–10 ml daily, taken on an empty stomach. It is effective against infection-associated cancer (Picosilver in cancer therapy: Potential and risks).

Lycopene, from tomatoes, increases ROS via lipid peroxidation, inhibits cell proliferation. Dosage of 15–30 mg daily, taken with a high-fat meal. It is effective against prostate cancer (Lycopene in prostate cancer prevention: A review).

Apigenin, a flavonoid, increases ROS, inhibits glycolysis and promotes apoptosis. Dosage of 20–50 mg daily, taken with food. It is effective against prostate cancer and breast cancer (Apigenin in cancer therapy: A review).

Genistein, an isoflavonoid, increases ROS, inhibits angiogenesis and promotes apoptosis. Dosage of 30–60 mg daily, not soy-based, taken with food. It is effective against prostate cancer and breast cancer (Genistein in cancer therapy: A review).

saw palmetto, from Serenoa repens, inhibits 5-alpha-reductase, reduces hormonal support for cancer cells and can indirectly increase ROS by disrupting cancer cell metabolism. Dosage of 320–640 mg daily, taken with food to improve absorption, is most effective against prostate cancer and may support overall prostate health. Studies show that saw palmetto contains fatty acids such as lauric acid and oleic acid, which can affect hormone balance and cellular function (Saw Palmetto in prostate health: A review). This supplement has a long history in traditional medicine to support urinary tract function and hormone balance, and its potential to help maintain healthy cellular function in the prostate makes it a valuable supplement in an integrative approach.

HCA (Hydroxycitric Acid), extracted from Garcinia cambogia, inhibits ATP-citrate lyase, an enzyme that converts glucose to fat, which can reduce the energy supply to cancer cells and potentially increase ROS by creating an energy deficit. Dosage of 500–1000 mg daily, taken on an empty stomach to maximize absorption, is most effective against prostate and colon cancer. Research indicates that HCA can help regulate energy metabolism in cells, which supports the body's natural processes (HCA in cancer therapy: Potential mechanisms). This supplement is also known for its use in weight control, but its ability to affect cellular energy makes it relevant in this the context.

Graviola extract, from Annona muricata, contains acetogenins such as annonacin, which can inhibit mitochondrial NADH dehydrogenase (complex I of the electron transport chain), reduce ATP production and increase ROS in cancer cells. Dosage of 500-1000 mg daily, taken with a light meal to avoid stomach irritation, is most effective against breast cancer, prostate cancer and colon cancer. Studies have shown that Graviola extract can support the body's natural processes by promoting apoptosis in abnormal cells, while also having anti-inflammatory properties (Graviola: A Novel Promising Natural-Derived Drug That Inhibits Tumorigenicity). The plant has been used in traditional medicine in South America and the Caribbean for its many health benefits, including supporting the immune system and cellular health.

Dandelion Root Extract, from Taraxacum officinale, contains polysaccharides and phenolic compounds that can increase ROS by disrupting mitochondrial function and promoting apoptosis in cancer cells. Dosage of 500–1000 mg daily, taken with food to improve absorption, is most effective against breast cancer, prostate cancer and liver cancer. Research suggests that dandelion root may help maintain healthy cell cycle regulation and support immune system function (Dandelion root extract affects colorectal cancer proliferation and survival). This herb has a long history in folk medicine as a means of supporting liver health and general detoxification, which can be an added benefit in an integrative approach.

Trametes versicolor extract, also known as Turkey Tail, contains polysaccharide-K (PSK) and polysaccharide peptides (PSP) that activate the immune system, especially macrophages and NK cells, and may indirectly increase ROS in cancer cells. Dosage of 1000-3000 mg daily, taken on an empty stomach in the morning for best effect, is most effective against breast cancer, prostate cancer and stomach cancer. Studies show that this mushroom can support the body's natural defenses and contribute to healthy cell function (Trametes versicolor (Turkey Tail Mushrooms) and the Treatment of Cancer). Trametes versicolor has been used in traditional Chinese and Japanese medicine for centuries, and its immunomodulatory properties are well documented.

Green tea extract Ultra (EGCG Ultra), a highly concentrated form of epigallocatechin gallate (EGCG), increases ROS by inhibiting antioxidant defenses such as superoxide dismutase and catalase in cancer cells, while promoting apoptosis. Dosage of 400-800 mg daily (minimum 80% EGCG), with a high dose of 1200 mg daily, taken on an empty stomach, 30 minutes before food, to maximize absorption. It is most effective against prostate cancer, breast cancer and lung cancer (EGCG and its anticancer effects: A review). This enhanced form of green tea extract provides a higher concentration of active compounds, which can provide very good support for the body's natural processes.

Magnesium Taurate, a combination of magnesium and taurine, can support cellular energy production and help maintain healthy mitochondrial function, which can indirectly increase ROS in cancer cells by disrupting their metabolism. Dosage of 125–250 mg daily of magnesium (equivalent to 1–2 capsules), taken with food to avoid stomach discomfort, is most effective for overall cellular health and may have supportive effects in prostate and breast cancer (Magnesium in health and disease). Magnesium is essential for over 300 enzymatic reactions in the body, and taurine can help protect cells against oxidative stress in healthy tissues, while potentially increasing stress in cancer cells.

Vitamin D3 (as cholecalciferol), supports immune system function and can help regulate the cell cycle, which can indirectly increase ROS in cancer cells by promoting differentiation and apoptosis. Dosage of 2000–5000 IU daily (50–125 µg), taken with a high-fat meal for better absorption, is most effective against prostate cancer, breast cancer and colon cancer (Vitamin D and cancer: A review of molecular mechanisms). Vitamin D3 is a fat-soluble vitamin that plays an important role in calcium homeostasis and immune modulation, and its use in this context can support general health and well-being.

Possible supportive therapies:

Infrared light used in a protocol of 20-30 minutes daily at 810-850 nm wavelength, can help increase blood flow and oxygen supply to tissues, which supports the body's natural processes by enhancing the effect of oxidative supplements. This therapy has been shown to support cellular energy and reduce inflammation in healthy cells, while potentially increasing stress in cancer cells (Infrared light therapy in cancer support). Infrared light penetrates deep into the tissue and can be used in home devices or clinical settings.

Hyperthermia involves heating the body or specific areas to 41-43°C for 30-60 minutes per session, and can increase ROS sensitivity in cancer cells by stressing their metabolism, while supporting the effects of supplements such as vitamin C. This method has been used in integrative medicine to support the body's natural processes and improve overall well-being (Hyperthermia in cancer treatment). Hyperthermia can be administered via infrared saunas or professional equipment under medical supervision.

Photodynamic therapy (PDT) combines photosensitive substances such as curcumin, artemisinin or honokiol with 660–850 nm light to activate ROS production in targeted areas, which can support the body's ability to deal with abnormal cells. Protocol of 20–30 minutes per session, depending on the equipment, has been shown to be effective in supporting cellular balance (Photodynamic therapy in cancer). PDT is a non-invasive method that requires specialized equipment and can be combined with other therapies to enhance the effect.

Hydrogen inhalation uses a mixture of 2:1 hydrogen to oxygen for 30 minutes daily, and can help reduce inflammation in healthy cells, while supporting oxidative effects in cancer cells. This therapy has been shown to support overall cellular health and may be a useful part of an integrative approach (Hydrogen inhalation in cancer support). Hydrogen inhalation can be performed with portable devices or in clinical settings.

Hyperbaric oxygen therapy (HBOT) involves daily sessions at 1–2 atm pressure for 60–90 minutes, and increases tissue oxygen levels, which can promote ROS production in hypoxic areas and support the body's natural processes. HBOT is most effective against oxygen-poor tumors and may contribute to general well-being (Hyperbaric oxygen therapy in cancer). This therapy requires specialized equipment and is often used in combination with other treatments.

Pulsed Magnetic Field Therapy (PEMF) used for 15–30 minutes daily, either with low-intensity devices at home or high-intensity equipment in the clinic, and can increase cell permeability, improve supplement uptake and support ROS effects in cancer cells. PEMF has been shown to support cellular energy and regeneration, which can be a valuable part of a holistic approach (Pulsed electromagnetic field therapy in cancer).

Conventional cancer treatment
Several of the above-mentioned therapies and active substances can be advantageously combined with conventional cancer treatment and make this type of treatment more effective.

Lifestyle changes:
The ketogenic diet requires a diet low in carbohydrate intake (less than 50 g daily), high in fat (70–80% of calories), and moderate in protein (15–20% of calories), and may help maintain a balanced energy supply by reducing glucose availability and promoting ketone production. This can support the body's natural processes and general well-being (Ketogenic diet in cancer). The diet includes foods such as avocados, coconut oil, nuts and leafy vegetables, and requires careful planning to ensure nutritional balance.

Deuterium-reduced water dosed at 1.5 (or more) liters daily, with a gradual reduction from 105 ppm to 85 ppm and further to 65 ppm over time, which can support mitochondrial function by reducing the deuterium content in the cells. This is taken evenly throughout the day and can help maintain healthy cell metabolism (Deuterium-depleted water in cancer). Deuterium-reduced water is available as specialty products and requires consistent use to be effective.

Intermittent fasting can follow the 16:8 method (16 hour fasting, 8 hour eating window) or 24 hour fasting 1-2 times weekly, and can help reduce glucose availability, increase autophagy and support the body's natural cellular cleaning processes. This can promote general health and well-being (Intermittent fasting in cancer). Practical implementation involves limiting food intake to a specific time window, such as from 12 to 20, and avoid calories outside this.

Physical activity recommended as 30–60 minutes of moderate activity, such as brisk walking or strength training, five days a week, and can strengthen the immune system, reduce inflammation and support general well-being. This can be adapted to individual needs and capacity (Exercise in cancer support). Activities such as yoga or swimming can also be effective options for maintaining physical function.

Stress reduction through methods such as yoga, meditation and deep breathing daily can lower cortisol levels, support immune system function and contribute to a general sense of well-being. These techniques can be performed for 15–30 minutes daily and have been shown to promote mental and physical balance (Stress reduction in cancer).

Periodic use and rotation of supplements and therapies is recommended to give the body rest periods and maximize the effect. This must be adapted to the individual according to blood tests, liver and kidney values and development.

Side effects and interactions:
Many of these drugs and therapies can have side effects that require attention. Piperlongumine may cause mild stomach discomfort, which can be reduced by taking it with food. Citrus Bergamot can affect liver enzymes and should be used with caution when using drugs that are metabolized via CYP3A4. Quercetin can cause headaches or stomach irritation in high doses, while Sulforaphane can cause mild gastrointestinal discomfort, especially on an empty stomach. Artemisinin can cause neurological side effects in high doses over time, and should be monitored by healthcare professionals. Vitamin C in high oral doses can cause diarrhoea, which can be adjusted by gradually reducing the dose. Metformin can cause gastrointestinal side effects such as nausea, and requires monitoring of kidney function. Disulfiram requires total abstinence from alcohol to avoid serious reactions such as vomiting and headache. Picosilver should be used with caution to avoid the risk of argyria (bluish skin color) with long-term use. Interactions with drugs are possible, especially with supplements that affect liver enzymes (eg Curcumin, Berberine), and users should consult a healthcare professional to avoid adverse effects.

Synergy effects and practical use:
Combinations such as vitamin C and ALA can enhance ROS production in cancer cells, while Quercetin and Curcumin can have synergistic effects on inhibiting NF-κB and promoting apoptosis. Timing is important: substances taken on an empty stomach (eg Berberine, Resveratrol) should be taken 30 minutes before food, while those requiring fat (eg Curcumin, Lycopene) should be taken with a meal. Quality of grant is essential; high quality products from reliable sources should be chosen to avoid contamination and ensure bioavailability. For example, liposomal forms of Curcumin and Honokiol can provide better absorption and effect.

Monitoring and adjustment:
Regular monitoring is essential to ensure safety and efficiency. Blood tests every four weeks to check liver and kidney function are recommended, especially when using high doses or several supplements at the same time. In the event of unexpected symptoms such as fatigue, nausea or skin reactions, use should be paused and assessed by healthcare personnel. The protocol can be adjusted based on individual responses, such as reducing the dose of vitamin C in case of diarrhea or increasing MAP intake (Master Amino Acid Profile) if additional protein support is needed.

Advanced therapies in practice:
Infrared light can be implemented at home with portable devices or in clinics with professional equipment, and users should follow recommended protocols to avoid skin irritation. Hyperthermia often requires specialized equipment such as infrared saunas, and temperature control is important for safety. Photodynamic therapy (PDT) requires access to light sources and photosensitive substances, and should be performed under guidance to ensure a targeted effect. Hydrogen inhalation can be done with small devices, while HBOT requires clinical access and monitoring. PEMF can be adapted with home appliances or high-intensity machines, depending on availability and needs.

Lifestyle changes in detail:
The ketogenic diet requires careful planning to avoid nutrient deficiencies, and users can include foods such as coconut oil, avocados, and low-carb organic vegetables. Deuterium-reduced water should be introduced gradually, and users can start with 105 ppm water and reduce to lower levels over time. Intermittent fasting can be adapted to individual routines, such as eating between 12 and 20, and requires hydration with water or herbal tea during the fasting period. Physical activity can include activities such as walking, yoga or strength training, adapted to physical capacity. Stress reduction through yoga or meditation can be done in the morning or evening, and deep breathing can be practiced in short sessions throughout the day to promote relaxation.

Disclaimer and reservations
This document is for private use only and shall not be publicly distributed, copied or otherwise distributed outside of these pages. The information presented is intended for general information and should not be used as a basis for medical diagnosis or treatment. All use of supplements or therapies mentioned in this document is at your own risk and should always be done in consultation with qualified healthcare personnel. Uno Vita AS does not claim that the products or information can prevent, treat or cure disease. The effect of supplements and therapies can vary from person to person. Keep supplements out of the reach of children. Recommended use or dosage must not be exceeded. When using devices such as infrared light or hydrogen inhalation, it should be done under the guidance of qualified personnel to ensure safe use. Only cancer specialists (oncologists) can offer active cancer treatment in line with the state's guidelines.

Freedom of expression and right to information
Uno Vita AS reserves the right to share publicly available research on health and wellness technologies in accordance with principles of freedom of expression and the right to information. This is in line with UN Human Rights (1948), Article 19, which ensures the right to freedom of opinion and expression, The International Convention on Civil and Political Rights (1966), Article 19, which guarantees the freedom to seek, receive and impart information, Norwegian Constitution Section 100, which protects freedom of expression, and the United States' First Amendment, which protects freedom of expression against state intervention. The purpose is to promote knowledge and support informed choices about health and well-being.

References

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4. Sulforaphane as a promising molecule for fighting cancer. https://pubmed.ncbi.nlm.nih.gov/24114482/
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