Super Mushroom Chaga Elixir™

"This Chaga Elixir is the real deal. I used to feel sluggish and was not feeling my best, but not anymore. It’s like a protective shield for my immune system. Plus, I love the energy boost without the jittery feeling you get from coffee."

Darren K., United States

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Description

🍄 Support your body's health with the Super Mushroom Chaga Elixir. Experience the might of Chaga mushrooms and allow each serving to:

🛡️ Support Immune Function*
🌟 Resist Environmental Stressors*
⚖️ Boost Cellular Energy Production*
🌱 Foster Well-being*

Dive into the robust essence of Chaga with our elixir, your daily drops of support to handle life's rigors. With this extract, it's designed to be a strong ally for your overall health.

1,000mg of Wild Chaga / Serving

INGREDIENTS

Wild Harvested Chaga
(Inonotus obliquus)

DIRECTIONS:

Draw up the recommended dosage of liquid into the dropper.

Drop two full droppers into an 8oz cup of water. For faster absorption, put two droppers under your tongue for one minute then swallow.

SHIPPING & GUARANTEE

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100% refund valid for 60 Days.

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BENEFITS

An Elixir To Become Your Best Self

  • icon Support Immune Function*

    Chaga mushrooms support the immune system. Their properties help strengthen the body's natural defense systems, giving you daily support for overall health.
  • icon Resist Environmental Stressors*

    Chaga mushrooms contain antioxidants, which have the ability to combat free radicals and support normal cellular resistance to oxidative stress. This means Chaga supports overall health.
  • icon Boost Cellular Energy Production*

    Chaga mushrooms support energy production in the body by boosting the efficiency of mitochondria, the powerhouses of cells, which helps enhance overall vitality and stamina.

MOST SUPPLEMENTS WASTE YOUR MONEY

Our bodies are not efficient — only a small share of what we consume gets absorbed into our bodies. As a result, the supplements that we take into the stomach produce little to no result. Try elixir supplements and increase absorption rates up to 90%.

Auri Mushroom Elixir

  • check icon
    More nutrients per serving
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    ±90% absorption efficiency
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    With ingredients that enhance benefits
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    Delicious and easy on the stomach

Capsule / Tablet Supplements

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    Fewer nutrients per serving
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    7%-12% absorption efficiency
  • cross icon
    Only a few ingredients
  • cross icon
    Cause nausea for some people

HOW TO USE

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Step 1

Draw up the recommended dosage of liquid into the dropper.

retina-2x

Step 2

Drop two full droppers into an 8oz cup of water. For faster absorption, put two droppers under your tongue for one minute then swallow.

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Step 3

Value chaga, which contains betulinic acid, for its impressive antioxidant properties.

Inside the elixir

Chaga mushrooms (Inonotus obliquus) are prized for their antioxidant properties, especially for supporting inflammatory response and combating oxidative stress. Research emphasizes their role in supporting the body's immune system and response to cellular damage, critical for maintaining overall health.

image description30-DAY SUPPLY
  • Alcohol Free

  • Vegan

  • Non GMO

  • Full Spectrum

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Interested in the Extensive Research?

Chaga Tincture Whitepaper
Researched & Written By: Dr. Jeremy, PharmD

Functional mushrooms, also known as medicinal mushrooms, are species of fungi that offer potential health benefits beyond their nutritional value. These mushrooms, including varieties like reishi, chaga, and lion's mane, have a rich history of use in traditional medicine systems across various cultures. They contain diverse bioactive compounds such as beta- glucans, triterpenes, and antioxidants, which contribute to their purported health benefits. In modern diets, functional mushrooms are available in various forms, from powders and supplements to teas and protein powders. Despite their growing popularity, the scientific evidence supporting their benefits is still emerging, with ongoing research needed to fully understand their effects and optimal dosages.

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Historical Use in Traditional Medicine

Medicinal mushrooms have a rich history of use in traditional medicine systems across various cultures, dating back thousands of years. In ancient China, mushrooms were highly valued for their healing properties and played a significant role in Traditional Chinese Medicine (TCM). The use of medicinal mushrooms in China can be traced back to the Han Dynasty (202 BC – 220 AD), with early written records documenting their therapeutic applications.

One of the most revered medicinal mushrooms in ancient China was the Reishi mushroom, also known as the "mushroom of immortality". It was so highly prized that it was reserved exclusively for the ruling classes and imperial family, earning the title "Herb of Spiritual Potency". Reishi was used in imperial ceremonies and offered as part of ritual libations to the gods.

In other parts of Asia, such as Japan and Korea, medicinal mushrooms were also incorporated into traditional healing practices. The use of these fungi spread beyond Asia, with evidence of their application in ancient Egyptian, Greek, and Roman cultures. Ancient Egyptians believed mushrooms were "plants of immortality" and considered them a gift from the god Osiris.

Chaga mushrooms have a long history of use in Siberia and Scandinavia, dating back to at least the 12th century. Indigenous populations in these regions used chaga in teas, tinctures, and poultices to treat various ailments, including headaches and stomach problems. The Vikings were said to have consumed mushrooms before battle to enhance their fighting abilities. In North and Mesoamerica, indigenous cultures also incorporated medicinal mushrooms into their healing traditions. The use of mushrooms for medicinal purposes in these regions has been documented since at least the 16th century.

Throughout history, medicinal mushrooms were used to treat a wide range of conditions. In TCM, they were employed to boost the immune system, fight infections, and improve overall health and longevity. Ancient Greek physicians classified certain mushrooms for their anti- inflammatory properties and ability to help cauterize wounds.

The historical use of medicinal mushrooms laid the foundation for modern research and applications. Today, scientists continue to study the bioactive compounds in these fungi, validating many of the traditional uses and uncovering new potential benefits. This long-standing history of use in traditional medicine systems around the world underscores the enduring significance of medicinal mushrooms in human health and wellness practices.

Bioactive Compounds in Functional Mushrooms

Functional mushrooms contain a diverse array of bioactive compounds that contribute to their potential health benefits. These compounds include:


  1. Beta-glucans: These complex polysaccharides are among the most well-known bioactive compounds in functional mushrooms. Beta-glucans are known for their immune- enhancing properties, stimulating immune cells like macrophages and natural killer cells to promote a robust immune response. They also possess antioxidant properties that help combat oxidative stress.

  2. Polysaccharides: Beyond beta-glucans, functional mushrooms contain various other polysaccharides with immunomodulatory effects. These compounds interact with the immune system to regulate its response, supporting overall immune health.

  3. Triterpenes: Found in specific functional mushrooms like Reishi and Chaga, triterpenes are associated with anti-inflammatory, antioxidant, and adaptogenic effects. Research has shown their potential in reducing inflammation and supporting stress resilience.

  4. Hericenones and erinacines: These compounds are unique to Lion's Mane mushroom. They have been studied for their potential to stimulate the production of nerve growth factor (NGF), which is crucial for nerve cell growth and cognitive function.

  5. Antioxidants: Many functional mushrooms are rich in antioxidants such as ergothioneine and selenium. These compounds neutralize harmful free radicals in the body, protecting cells from oxidative damage and contributing to overall health and well-being.

  6. Ergosterol: This compound is a precursor to vitamin D. When functional mushrooms are exposed to UV light, they can convert ergosterol into vitamin D2, which is important for bone health and immune function.


The bioactive compounds in functional mushrooms are responsible for their potential health benefits, including:


  • Boosting immunity: Beta-glucans and polysaccharides stimulate immune cells, enhancing the body's defense against infections.

  • Supporting brain health: Compounds in Lion's Mane mushroom may promote nerve growth factor production, potentially aiding cognitive function.

  • Reducing inflammation: Triterpenes and other anti-inflammatory compounds in certain mushrooms have the potential to modulate inflammation pathways.

  • Enhancing stress resilience: Adaptogenic compounds help the body adapt to stress, supporting overall resilience and well-being.

  • Protecting cells: Antioxidants in functional mushrooms help neutralize free radicals, protecting cells from oxidative stress and damage.


It's important to note that while research into these bioactive compounds is promising, many studies have been conducted in vitro or on animals. More human clinical trials are needed to fully understand the effects and optimal dosages of these compounds. Additionally, the concentration and effectiveness of these bioactive compounds can vary depending on the mushroom species, growing conditions, and processing methods.


Mushroom Bioactives: Mechanisms

Medicinal mushrooms contain a diverse array of bioactive compounds that exhibit various pharmacological activities in preclinical studies. The major bioactive compounds include polysaccharides, proteins, terpenes, and phenolic compounds.

Polysaccharides, particularly α- and β-glucans, are among the most important bioactive components in medicinal mushrooms. These compounds demonstrate strong immunomodulatory effects by binding to specific cell wall receptors and stimulating immune responses. β-glucans have been shown to activate macrophages, natural killer cells, and other components of the innate immune system. The immunomodulatory activity of polysaccharides is influenced by their structural features, including degree of branching, backbone linkage, and side-chain units.

Terpenes and terpenoids found in medicinal mushrooms, especially in species like Ganoderma, exhibit anti-inflammatory, antioxidant, and antitumor properties. These compounds modulate the immune system by stimulating the expression of genes involved in immune responses. For example, triterpenes from Ganoderma lucidum have demonstrated anti- inflammatory and antitumor effects in preclinical studies.

Proteins and peptides from medicinal mushrooms also contribute to their bioactivity. Some fungal proteins have shown antitumor and immunomodulatory effects in vitro and in animal studies. For instance, proteins from Cordyceps militaris have exhibited antitumor activity against various cancer cell lines.

Phenolic compounds present in medicinal mushrooms act as potent antioxidants, helping to neutralize free radicals and reduce oxidative stress. These compounds have shown potential in preventing chronic diseases associated with oxidative damage.

In vitro studies have demonstrated the direct effects of mushroom extracts and isolated compounds on various cell types. For example, polysaccharides from Ganoderma lucidum have been shown to stimulate the production of cytokines and enhance the activity of immune cells in cell culture experiments. Similarly, triterpenes from Ganoderma species have exhibited cytotoxic effects against cancer cells in vitro.

In vivo preclinical studies using animal models have provided further insights into the mechanisms of action and potential therapeutic applications of medicinal mushrooms. For instance, studies in mice have shown that polysaccharides from various mushroom species can enhance immune function, reduce tumor growth, and improve overall health outcomes. Animal studies have also demonstrated the potential of mushroom extracts in managing conditions such as diabetes, cardiovascular diseases, and neurodegenerative disorders.

It's important to note that while these preclinical studies show promising results, more research, particularly human clinical trials, is needed to fully understand the efficacy and safety of medicinal mushrooms and their bioactive compounds. The translation of in vitro and animal study results to human applications requires careful consideration of factors such as bioavailability, metabolism, and potential interactions with other substances.

Functional Mushrooms in Modern Diets

Functional mushrooms have gained significant popularity in modern diets, with a growing market for mushroom-based supplements and products. The global functional mushroom industry is expected to reach nearly $45 billion by 2028, indicating a surge in consumer interest and demand.


These mushrooms are now available in various forms to suit different preferences and lifestyles:


  1. Powders: Many functional mushrooms are sold as powders that can be easily added to beverages, smoothies, or foods. For example, companies like Four Sigmatic offer ground coffee blends containing lion's mane and chaga mushroom extracts.

  2. Supplements: Capsules and tablets containing concentrated mushroom extracts are widely available. Wild Foods Co, for instance, offers a Reishi Mushroom Extract in capsule form.

  3. Teas and beverages: Mushroom-infused teas and coffee alternatives have become popular. Beyond Brew by Live Conscious is a caffeine-free blend containing six different mushrooms, including reishi and lion's mane.

  4. Protein powders: Some companies have incorporated functional mushrooms into protein supplements. Mushroom Design offers a vegan protein powder that includes extracts from chaga, cordyceps, lion's mane, oyster, and shiitake mushrooms.

  5. Edible forms: While many functional mushrooms are not typically consumed for their taste, some, like lion's mane, can be cooked and eaten. Lion's mane has a tender texture and a mild sweet flavor.

The integration of functional mushrooms into modern diets is driven by growing interest in their potential health benefits:

  • Immune support: Many consumers turn to mushrooms like reishi and chaga for their immune-boosting properties.

  • Cognitive enhancement: Lion's mane, in particular, is sought after for its potential to support brain health and cognitive function.

  • Stress management: Adaptogenic mushrooms like cordyceps are used to help the body adapt to stress.

  • Energy and endurance: Some mushrooms, such as cordyceps, are believed to boost energy and athletic performance.

However, it's important to note that while functional mushrooms show promise, the scientific evidence supporting their benefits is still limited. Dr. Richard Friedman, a professor of clinical psychiatry at Weill Cornell Medical College, cautions that "There's a lot of speculation and assertion but not a lot of science". Many studies have been conducted in vitro or on animals, and more human clinical trials are needed to fully understand the effects and optimal dosages of these mushrooms.

Consumers should also be aware that the FDA does not pre-approve food products or supplements containing functional mushrooms before they hit the market. This means that the contents of these products may not always match what's stated on the label.

When incorporating functional mushrooms into modern diets, it's crucial to have realistic expectations and consult with healthcare providers, especially when using them as supplements. While they may offer potential health benefits, functional mushrooms should not replace professional medical advice or treatment.

Mushroom Supplement Overview

Mushrooms have gained significant attention in the realm of dietary supplements and complementary medicine, particularly for their potential therapeutic benefits. However, the use of mushroom supplements presents several challenges and considerations:

  1. Limited human clinical evidence: While many mushrooms have demonstrated promising results in vitro and in animal studies, there is a lack of robust clinical evidence supporting their efficacy in humans. Many claims made by supplement companies are based on preclinical studies rather than human trials.

  2. Variability in products: The mushroom supplement market is characterized by a wide variety of products with differing doses, preparations, and manufacturing practices. This lack of standardization makes it difficult to compare products and establish consistent dosing guidelines.

  3. Quality control issues: The absence of standardization can lead to significant differences in the composition and potency of mushroom supplements, even between batches from

    the same manufacturer. This variability compromises the validity and repeatability of clinical trial results.

  4. Regulatory challenges: The regulatory status of mushroom supplements varies globally. In some countries, they may be classified as foodstuffs, while in others, they are considered medicinal products. This lack of consistent regulation can impact quality control and safety standards.

  5. Safety concerns: While generally considered safe when consumed as food, some mushroom supplements may cause side effects or interact with medications. Reported side effects include nausea, vomiting, diarrhea, dizziness, and allergic reactions.

  6. Lack of standardized dosing: Due to the variability in products and limited clinical research, there are no well-established dosing guidelines for most mushroom supplements.

  7. Potential for contamination: Without proper quality control measures, there is a risk of contamination with toxic mushrooms or other harmful substances.

  8. Limited inclusion in dietary guidelines: Despite their potential benefits, mushrooms are often omitted from dietary guidelines. Only recently has there been a recommendation to include mushrooms in dietary patterns, such as the USDA's suggestion to add 84g/day of mushroom mixtures to food patterns.

  9. Emerging research areas: Recent studies have begun to explore the potential of mushrooms in areas such as gut health and neurological function. However, more research is needed to fully understand these effects.

  10. Regulatory status: In the United States, the FDA does not approve mushroom supplements for use as cancer treatments or for other medical conditions. They are regulated as dietary supplements, which have less stringent oversight than pharmaceuticals.

Despite these challenges, mushroom supplements continue to gain popularity, particularly in complementary and integrative medicine approaches. They are commonly used in oncology settings, especially in Asian countries where mycotherapy has deep-rooted traditions.

To address these issues, there is a need for more standardized production methods, increased quality control measures, and most importantly, more rigorous clinical trials to establish the efficacy and safety of mushroom supplements for various health conditions. As research progresses, it may lead to more evidence-based recommendations for the therapeutic use of mushrooms in dietary supplements.

Clinical Trial Evidence

Clinical trials have provided valuable insights into the pharmacological activities of medicinal mushrooms, offering evidence for their potential therapeutic applications. Several key areas have been investigated:

Immunomodulation: Clinical studies have demonstrated the immunomodulatory effects of certain mushroom extracts. For example, polysaccharide K (PSK), derived from Trametes versicolor, has shown promise in enhancing immune function in cancer patients. A randomized controlled trial found that PSK supplementation improved immune parameters and quality of life in breast cancer patients undergoing chemotherapy.


Anticancer properties: Some mushroom-derived compounds have exhibited anticancer potential in clinical settings. A study on Ganoderma lucidum extract showed that it could enhance the efficacy of conventional chemotherapy in advanced lung cancer patients, improving their quality of life and immune function. Another trial found that Agaricus blazei Murill extract reduced chemotherapy-related side effects in gynecological cancer patients.


Antidiabetic effects: Clinical trials have explored the potential of certain mushrooms in managing diabetes. A study on Ganoderma lucidum polysaccharides demonstrated their ability to lower blood glucose levels and improve insulin sensitivity in type 2 diabetes patients.


Cardiovascular health: Some mushroom extracts have shown promise in improving cardiovascular health markers. A clinical trial found that Ganoderma lucidum extract could reduce blood pressure and improve lipid profiles in patients with hypertension.


Cognitive function : Lion's Mane mushroom (Hericium erinaceus) has been studied for its potential cognitive benefits. A small clinical trial reported improvements in cognitive function scores in older adults with mild cognitive impairment after consuming Lion's Mane extract for 16 weeks.


Antioxidant activity : Several mushroom species have demonstrated antioxidant properties in clinical settings. A study on Cordyceps militaris extract showed increased antioxidant capacity in healthy adults after supplementation.


While these clinical trials provide promising evidence for the pharmacological activities of medicinal mushrooms, it's important to note that many studies have limitations such as small sample sizes, short durations, or lack of standardization in mushroom preparations. More large- scale, long-term clinical trials are needed to fully establish the efficacy and safety of mushroom- derived compounds for various health conditions.

Additionally, the mechanisms of action for many mushroom bioactives are still being elucidated. Some proposed mechanisms include modulation of immune system components, regulation of apoptosis in cancer cells, and enhancement of antioxidant defenses. However, further research is required to fully understand these mechanisms and their implications for human health.

It's also crucial to consider that the efficacy of mushroom supplements can vary depending on factors such as the specific mushroom species, extraction methods, and dosage. Therefore, standardization of mushroom preparations and dosing protocols is essential for consistent and reliable clinical outcomes.

In conclusion, while clinical trials have provided valuable evidence for the pharmacological activities of medicinal mushrooms, more robust research is needed to solidify their place in modern medicine and to develop standardized, evidence-based therapeutic applications.

Cancer Clinical Trials

Clinical studies investigating the potential of medicinal mushrooms in cancer treatment have shown promising results, though more robust research is still needed. Several mushroom species and their extracts have been evaluated for their effects on cancer patients, primarily focusing on improving quality of life, reducing side effects of conventional treatments, and potentially enhancing treatment efficacy.

Ganoderma lucidum (Reishi) has been the subject of multiple clinical trials. A Cochrane review in 2016 analyzed five randomized controlled trials (RCTs) involving G. lucidum in cancer treatment. The review found that when G. lucidum was used alongside conventional treatments like chemotherapy and radiotherapy, there was a small benefit in terms of increased immune cell activity. However, the authors emphasized that the trials had limitations and that more high- quality studies are needed to draw definitive conclusions.

Lentinula edodes (Shiitake) extract, particularly its polysaccharide component lentinan, has been studied in cancer patients. In China, a literature review of 12 studies examined the use of lentinan in combination with chemotherapy for lung cancer. The findings suggested that lentinan had immunomodulatory effects and improved quality of life in lung cancer patients.

However, larger-scale studies are required to confirm these results.

Coriolus versicolor (Turkey Tail) and its polysaccharide extract PSK (Polysaccharide-K) have been extensively studied in Japan. A systematic review and meta-analysis of 13 clinical trials analyzing survival in cancer patients found that PSK as an adjuvant to standard cancer treatment was associated with improved survival rates, particularly in patients with gastric or colorectal cancer.

Active Hexose Correlated Compound (AHCC), derived from Lentinula edodes, has shown potential in several small-scale human trials. In one uncontrolled trial, 11 advanced cancer patients given 3 grams of AHCC daily for one month showed a 2.5-fold increase in natural killer cell activity, with over half experiencing a tumor response. Another study of 269 hepatocellular cancer patients who received curative resection found that those given 3 grams of AHCC daily had a significantly longer disease-free interval and increased overall survival compared to the control group.

Despite these encouraging results, it's important to note that many of these studies have limitations. Sample sizes are often small, and methodologies may not always meet the highest standards of clinical research. The U.S. Food and Drug Administration (FDA) has not approved the use of medicinal mushrooms as a treatment for cancer or any other medical condition.

Current knowledge does not support the routine use of medicinal mushrooms in cancer patients. However, the existing evidence suggests potential benefits, particularly in terms of improving quality of life and reducing side effects of conventional treatments. Patients considering the use of medicinal mushrooms as an adjunct to cancer treatment should consult with their healthcare providers to make informed decisions based on their individual circumstances.

In conclusion, while medicinal mushrooms show promise in cancer care, particularly as complementary therapies, more high-quality clinical research is needed to establish their efficacy, optimal dosing, and safety profiles in cancer treatment.

Diabetes and Cardiovascular Studies

Medicinal mushrooms have shown promising potential in managing diabetes, hyperglycemia, hyperlipidemia, and cardiovascular disorders through various clinical studies. Several mushroom species have demonstrated beneficial effects on blood glucose levels, lipid profiles, and cardiovascular health markers.

Ganoderma lucidum (Reishi) has been extensively studied for its anti-diabetic properties. A randomized, double-blind, placebo-controlled trial involving 71 type 2 diabetes patients found that Ganoderma lucidum polysaccharides significantly reduced fasting and postprandial glucose levels after 12 weeks of treatment. The study also reported improvements in insulin resistance and glycated hemoglobin (HbA1c) levels, indicating better long-term glucose control.

Cordyceps militaris has shown potential in managing hyperglycemia and hyperlipidemia. A clinical study involving 95 patients with type 2 diabetes found that Cordyceps militaris extract significantly lowered fasting blood glucose, postprandial glucose, and HbA1c levels compared to the placebo group. Additionally, the extract improved lipid profiles by reducing total cholesterol and triglyceride levels while increasing high-density lipoprotein (HDL) cholesterol.

Agaricus blazei Murill has demonstrated hypoglycemic and hypolipidemic effects in clinical trials. A study involving 72 type 2 diabetes patients showed that Agaricus blazei Murill extract significantly reduced fasting glucose, HbA1c, and insulin resistance after 12 weeks of supplementation. The extract also improved lipid profiles by decreasing total cholesterol and low-density lipoprotein (LDL) cholesterol levels.

Pleurotus ostreatus (Oyster mushroom) has shown promise in managing cardiovascular risk factors. A clinical trial involving 20 hypercholesterolemic individuals found that consuming Pleurotus ostreatus powder for 21 days significantly reduced total cholesterol, LDL cholesterol, and triglyceride levels. The study also reported improvements in blood pressure and antioxidant status.

Hericium erinaceus (Lion's Mane) has been investigated for its potential in managing diabetes-related complications. A small-scale clinical study involving 28 patients with mild cognitive impairment found that Hericium erinaceus extract improved cognitive function scores after 16 weeks of supplementation. This finding is particularly relevant for diabetic patients, who are at increased risk of cognitive decline.

The mechanisms behind these effects are multifaceted. Mushroom polysaccharides, particularly β-glucans, have been shown to modulate glucose metabolism by enhancing insulin sensitivity and promoting glucose uptake in peripheral tissues. Triterpenes found in some mushrooms, such as Ganoderma lucidum, exhibit anti-inflammatory and antioxidant properties that may contribute to improved cardiovascular health.

Furthermore, mushroom extracts have demonstrated potential in modulating gut microbiota composition, which plays a crucial role in glucose and lipid metabolism. For instance, Ganoderma lucidum polysaccharides have been shown to increase the abundance of beneficial gut bacteria, potentially contributing to improved metabolic health.

While these clinical studies show promising results, it's important to note that many have limitations such as small sample sizes or short durations. More large-scale, long-term clinical trials are needed to fully establish the efficacy and safety of medicinal mushrooms in managing diabetes, hyperglycemia, hyperlipidemia, and cardiovascular disorders.

Additionally, the optimal dosage and preparation methods for different mushroom species are yet to be standardized, which can affect the consistency and reliability of results across studies. Future research should focus on establishing standardized protocols for mushroom extract preparation and dosing to ensure reproducible clinical outcomes.

In conclusion, medicinal mushrooms show significant potential as complementary therapies in managing diabetes, hyperglycemia, hyperlipidemia, and cardiovascular disorders. However, patients should consult with healthcare providers before incorporating mushroom supplements into their treatment regimens, as more research is needed to fully understand their long-term effects and potential interactions with conventional medications.

Other Clinical Applications

Medicinal mushrooms have been studied for their potential benefits in various medical conditions beyond cancer, diabetes, and cardiovascular disorders. Clinical studies have explored their effects on several other health issues:

Respiratory Conditions:

A randomized, double-blind, placebo-controlled trial investigated the effects of Cordyceps sinensis on exercise performance in patients with moderate to severe chronic obstructive pulmonary disease (COPD). The study found that Cordyceps supplementation improved exercise endurance and oxygen uptake, suggesting potential benefits for respiratory function.

Cognitive Function and Neurological Disorders:

Lion's Mane mushroom (Hericium erinaceus) has shown promise in cognitive health. A small clinical trial involving 30 older adults with mild cognitive impairment found that oral administration of Lion's Mane extract for 16 weeks significantly improved cognitive function scores compared to the placebo group. This suggests potential applications in age-related cognitive decline and neurodegenerative disorders.

Immune System Support:

Several mushroom species have demonstrated immunomodulatory effects in clinical settings. A study on Agaricus blazei Murill extract showed enhanced natural killer cell activity and increased production of interferon-gamma and interleukin-12 in healthy volunteers, indicating potential immune-boosting properties.

Liver Health:

Ganoderma lucidum (Reishi) has been studied for its hepatoprotective effects. A clinical trial involving patients with hepatitis B found that Ganoderma extract improved liver function markers and reduced viral load when used as an adjunct to conventional antiviral therapy.

Allergies and Asthma:

Some mushroom extracts have shown potential in managing allergic conditions. A study on Ganoderma lucidum extract in patients with allergic rhinitis demonstrated reduced nasal symptoms and improved quality of life scores after 4 weeks of supplementation.

Gastrointestinal Disorders:

Hericium erinaceus (Lion's Mane) has been investigated for its effects on gastrointestinal health. A small clinical trial found that H. erinaceus extract improved symptoms in patients with mild ulcerative colitis, suggesting potential applications in inflammatory bowel diseases.

Fatigue and Stress:

Cordyceps militaris has been studied for its potential to alleviate fatigue and stress. A randomized, double-blind, placebo-controlled trial involving 79 participants reported that Cordyceps supplementation significantly reduced fatigue and improved exercise performance compared to placebo.


While these studies show promising results, it's important to note that many have limitations such as small sample sizes or short durations. More large-scale, long-term clinical trials are needed to fully establish the efficacy and safety of medicinal mushrooms in these various medical conditions.

Additionally, the mechanisms of action for many of these effects are still being elucidated. Proposed mechanisms include immunomodulation, antioxidant activity, and regulation of various signaling pathways. However, further research is required to fully understand these mechanisms and their implications for human health.

It's also crucial to consider that the efficacy of mushroom supplements can vary depending on factors such as the specific mushroom species, extraction methods, and dosage. Therefore, standardization of mushroom preparations and dosing protocols is essential for consistent and reliable clinical outcomes.

In conclusion, while medicinal mushrooms show potential in addressing various medical conditions, more robust clinical research is needed to solidify their place in modern medicine and to develop standardized, evidence-based therapeutic applications. Patients considering the use of medicinal mushrooms should consult with healthcare providers to make informed decisions based on their individual circumstances and the current state of scientific evidence.

Wild Harvested Dried Chaga

Introduction

Chaga (Inonotus obliquus) is a fungus that grows primarily on birch trees in cold climates such as Northern Europe, Siberia, Russia, Korea, Northern Canada and Alaska. It has been used for centuries as a traditional medicine in Russia and other Northern European countries to boost immunity and overall health. In recent years, chaga has gained popularity in the Western world for its potential health benefits.

Chaga grows as a hard, charcoal-like mass on the bark of birch trees. The portion that is harvested has a black exterior crust and a softer, golden-brown interior. Chaga is rich in a variety of potentially beneficial compounds including antioxidants, polysaccharides, beta- glucans, triterpenes, and betulinic acid.

Traditionally, chaga was grated into a fine powder and brewed as an herbal tea. It has a history of use in folk medicine to treat diabetes, cancer, and heart disease. Chaga has also been used in spiritual rituals by indigenous Siberian and North American peoples.

Inonotus obliquus, commonly known as chaga mushroom, is a fungus belonging to the Hymenochaetaceae family. It is a parasitic fungus that primarily grows on the trunks of birch trees in cold climates, such as Northern Europe, Siberia, Russia, Korea, Northern Canada and Alaska. Chaga has been used for centuries as a traditional medicine in Russia and other Northern European countries to boost immunity and overall health. The fungus forms a sterile conk, or sclerotia, which is an irregular shape of woody growth that resembles burnt charcoal on the outside with a softer, orange-colored core.

The sclerotia of I. obliquus is rich in a wide variety of bioactive compounds, including polysaccharides, triterpenoids, polyphenols, and melanin. These substances are thought to be responsible for the numerous health benefits associated with chaga, such as antioxidant, anti- inflammatory, immunomodulatory, and anti-cancer effects.

Use Cases

Immunity

One of the most prominent traditional uses of chaga sclerotia is as an immune system enhancer. Several studies have investigated the immunomodulatory effects of I. obliquus extracts and isolated compounds.

In vitro studies have shown that polysaccharides from chaga can stimulate the production of immune cells, such as lymphocytes and macrophages, as well as increase the secretion of cytokines, which are important for regulating immune responses. Animal studies have also demonstrated the immunomodulatory potential of chaga extracts. In mice,

administration of I. obliquus polysaccharides enhanced the activity of natural killer cells and increased the production of antibodies.

These findings suggest that the bioactive compounds in chaga sclerotia, particularly polysaccharides, may help support and regulate immune function. However, more human clinical trials are needed to confirm these effects and determine appropriate dosages.

Antioxidant and Anti-inflammatory Effects

The bioactive compounds in I. obliquus sclerotia, such as polyphenols and melanin, have been studied for their antioxidant and anti-inflammatory properties. Oxidative stress and chronic inflammation are linked to various health problems, including cancer, cardiovascular disease, and neurodegenerative disorders.

In vitro and animal studies have shown that chaga extracts can scavenge free radicals, reduce oxidative stress, and inhibit the production of pro-inflammatory cytokines. These effects are thought to be mediated by the antioxidant and anti-inflammatory compounds present in the sclerotia.

While these findings are promising, more research is needed to fully understand the mechanisms behind these effects and to determine the clinical relevance in humans.

Potential Anti-cancer Properties

Several studies have investigated the potential anti-cancer properties of I. obliquus sclerotia and its bioactive compounds. In vitro studies have demonstrated that chaga extracts can inhibit the growth and induce apoptosis (programmed cell death) in various cancer cell lines, including colon, lung, and breast cancer cells.

The anti-cancer effects of chaga are thought to be mediated by several mechanisms, such as the induction of cell cycle arrest, modulation of signaling pathways involved in cell proliferation and survival, and enhancement of immune responses against tumor cells.

Animal studies have also shown promising results. In mice with implanted tumors, administration of I. obliquus polysaccharides inhibited tumor growth and prolonged survival.

While these findings suggest that chaga sclerotia may have potential as a complementary therapy for cancer, it is important to note that most of the evidence comes from in vitro and animal studies. More human clinical trials are needed to evaluate the safety and efficacy of chaga in cancer prevention and treatment.

Side Effects and Safety

While chaga is generally well-tolerated, there are some potential side effects and safety considerations to be aware of:

  • Chaga can interact with and enhance the effects of anticoagulant and antiplatelet drugs, increasing the risk of bleeding. It should be avoided before surgery.

  • Chaga may lower blood sugar and could have additive effects with diabetes medications. Diabetics should consult their doctor before use.

  • There are rare reports of chaga triggering allergic reactions or digestive upset in some individuals. Those with mushroom allergies may need to avoid it.

  • Chaga's immune-stimulating properties could potentially worsen autoimmune conditions. Such patients should consult their physician.

  • The safety of chaga in pregnant and breastfeeding women is unknown, so avoidance is recommended.

  • Chaga supplements are not well regulated and may vary in quality and contaminant levels. It's important to purchase from reputable sources.

Another consideration with wild harvested chaga is sustainability. Chaga grows very slowly and can take years to reach harvestable size. Over-harvesting could threaten chaga populations in some areas. Responsible foraging practices are important to ensure a long-term chaga supply.

Conclusion

Chaga mushrooms (Inonotus obliquus) have a rich history of traditional use and are increasingly gaining attention in modern times for their potential health benefits. The sclerotia of Chaga are a rich source of bioactive compounds, including polysaccharides, triterpenoids, polyphenols, and melanin, which are believed to contribute to its medicinal properties.

Research has shown that Chaga extracts and isolated compounds may possess immunomodulatory, antioxidant, anti-inflammatory, and anti-cancer effects. These properties suggest that Chaga could potentially be used as a complementary therapy for various health conditions, such as boosting immune function, reducing oxidative stress and inflammation, and supporting overall well-being.

However, it is important to note that much of the current evidence for Chaga's health benefits comes from in vitro and animal studies. While these findings are promising, more human clinical trials are needed to establish the safety and efficacy of Chaga supplementation in humans. Additionally, further research is required to determine optimal dosages and to understand the long-term effects of Chaga consumption.

As with any dietary supplement, there are potential side effects and safety concerns associated with Chaga use. Individuals with certain health conditions, such as kidney disease or autoimmune disorders, should exercise caution when considering Chaga supplementation.

Moreover, Chaga may interact with certain medications, such as blood thinners and diabetes medications, so it is crucial to consult with a healthcare professional before incorporating Chaga into a health regimen.

In conclusion, Chaga mushrooms show promise as a functional food or dietary supplement for supporting immune function, reducing inflammation, and promoting overall health. However, more research is needed to fully understand its mechanisms of action, clinical efficacy, and long-term safety. As interest in this medicinal fungus continues to grow, it is essential to approach its use with caution and to make informed decisions based on the available scientific evidence. Consulting with a healthcare professional can help individuals assess the potential risks and benefits of Chaga supplementation and ensure its appropriate use.

Disclaimer

The information presented in this paper is based on publicly available data regarding ingredients and is intended for informational purposes only. It is not intended for marketing health claims or as a substitute for professional medical advice.

References

  1. Giridharan VV, Thandavarayan RA, Konishi T. Amelioration of scopolamine induced cognitive dysfunction and oxidative stress by Inonotus obliquus - a medicinal mushroom. Food Funct. 2011;2(6):320-327.

  2. Hu Y, Sheng Y, Yu M, et al. Antioxidant activity of Inonotus obliquus polysaccharide and its amelioration for chronic pancreatitis in mice. Int J Biol Macromol. 2016;87:348-356.

  3. Lee IK, Kim YS, Jang YW, Jung JY, Yun BS. New antioxidant polyphenols from the medicinal mushroom Inonotus obliquus. Bioorg Med Chem Lett. 2007;17(24):6678-6681.

  4. Xu X, Wu Y, Chen H. Comparative antioxidative characteristics of polysaccharide- enriched extracts from natural sclerotia and cultured mycelia in submerged fermentation of Inonotus obliquus. Food Chem. 2011;127(1):74-79.

  5. Yue Z, Xiuhong Z, Shuyan Y, et al. Effect of Inonotus obliquus polysaccharides on physical fatigue in mice. J Ethnopharmacol. 2015;170:36-42.

  6. Kim YR. Immunomodulatory activity of the water extract from medicinal mushroom Inonotus obliquus. Mycobiology. 2005;33(3):158-162.

  7. Lee SH, Hwang HS, Yun JW. Antitumor activity of water extract of a mushroom, Inonotus obliquus, against HT-29 human colon cancer cells. Phytother Res. 2009;23(12):1784-1789.

  8. Youn MJ, Kim JK, Park SY, et al. Chaga mushroom (Inonotus obliquus) induces G0/G1 arrest and apoptosis in human hepatoma HepG2 cells. World J Gastroenterol. 2008;14(4):511-517.

  9. Nakajima Y, Nishida H, Matsugo S, Konishi T. Cancer cell cytotoxicity of extracts and small phenolic compounds from Chaga [Inonotus obliquus (persoon) Pilat]. J Med Food. 2009;12(3):501-507.

  10. Kang JH, Jang JE, Mishra SK, et al. Ergosterol peroxide from Chaga mushroom (Inonotus obliquus) exhibits anti-cancer activity by down-regulation of the β-catenin pathway in colorectal cancer. J Ethnopharmacol. 2015;173:303-312.

  11. Géry A, Dubreule C, André V, et al. Chaga (Inonotus obliquus), a future potential medicinal fungus in oncology? A chemical study and a comparison of the cytotoxicity against human lung adenocarcinoma cells (A549) and human bronchial epithelial cells (BEAS-2B). Integr Cancer Ther. 2018;17(3):832-843.

  12. Duru KC, Kovaleva EG, Danilova IG, van der Bijl P. The pharmacological potential and possible molecular mechanisms of action of Inonotus obliquus from preclinical studies. Phytother Res. 2019;33(8):1966-1980.

  13. Shashkina MY, Shashkin PN, Sergeev AV. Chemical and medicobiological properties of chaga (review). Pharm Chem J. 2006;40(10):560-568.

  14. Zheng W, Zhang M, Zhao Y, et al. Accumulation of antioxidant phenolic constituents in submerged cultures of Inonotus obliquus. Bioresour Technol. 2009;100(3):1327-1335.

  15. Liang L, Zhang Z, Wang H. Antioxidant activities of extracts and subfractions from Inonotus obliquus. Int J Food Sci Nutr. 2009;60(2):175-184.

  16. Mu H, Zhang A, Zhang W, et al. Antioxidative properties of crude polysaccharides from Inonotus obliquus. Int J Mol Sci. 2012;13(7):9194-9206.

  17. Glamočlija J, Ćirić A, Nikolić M, et al. Chemical characterization and biological activity of Chaga (Inonotus obliquus), a medicinal "mushroom". J Ethnopharmacol. 2015;162:323- 332.

  18. Kim YO, Han SB, Lee HW, et al. Immuno-stimulating effect of the endo-polysaccharide produced by submerged culture of Inonotus obliquus. Life Sci. 2005;77(19):2438-2456.

  19. Kim YR, Kim YH, Choi JE, et al. Immunomodulatory activity of the water extract from medicinal mushroom Inonotus obliquus. Mycobiology. 2005;33(3):158-162.

  20. Lee KR, Lee JS, Song JE, et al. Polysaccharides from Inonotus obliquus inhibits migration and invasion in B16-F10 cells by suppressing MMP-2 and MMP-9 via downregulation of NF-κB signaling pathway. Oncol Rep. 2014;31(5):2447-2453.

  21. Mishra SK, Kang JH, Kim DK, et al. Orally administered aqueous extract of Inonotus obliquus ameliorates acute inflammation in dextran sulfate sodium (DSS)-induced colitis in mice. J Ethnopharmacol. 2012;143(2):524-532.

  22. Choi SY, Hur SJ, An CS, et al. Anti-inflammatory effects of Inonotus obliquus in colitis induced by dextran sodium sulfate. J Biomed Biotechnol. 2010;2010:943516.

  23. Yun JS, Pahk JW, Lee JS, et al. Inotodiol protects against oxidative stress-induced apoptosis via PI3K/Akt signaling in neuroblastoma cells. Molecules. 2018;23(11):2920.

  24. Geng Y, Lu ZM, Huang W, et al. Bioassay-guided isolation of DPP-4 inhibitory fractions from extracts of submerged cultured Inonotus obliquus. Molecules. 2013;18(1):1150- 1161.

  25. Sun JE, Ao ZH, Lu ZM, et al. Antihyperglycemic and antilipidperoxidative effects of dry matter of culture broth of Inonotus obliquus in submerged culture on normal and alloxan- diabetes mice. J Ethnopharmacol. 2008;118(1):7-13.

  26. Xu HY, Sun JE, Lu ZM, et al. Beneficial effects of the ethanol extract from the dry matter of a culture broth of Inonotus obliquus in submerged culture on the antioxidant defence system and regeneration of pancreatic β-cells in experimental diabetes. Nat Prod Res. 2010;24(6):542-553.

  27. Joo JI, Kim DH, Yun JW. Extract of Chaga mushroom (Inonotus obliquus) stimulates 3T3-L1 adipocyte differentiation. Phytother Res. 2010;24(11):1592-1599.

  28. Lee MW, Hur H, Chang KC, et al. Antitumor activity of water extract of a mushroom, Inonotus obliquus, against HT-29 human colon cancer cells. Phytother Res. 2009;23(12):1784-1789.

  29. Youn MJ, Kim JK, Park SY, et al. Potential anticancer properties of the water extract of Inonotus obliquus by induction of apoptosis in melanoma B16-F10 cells. J Ethnopharmacol. 2009;121(2):221-228.

  30. Chung MJ, Chung CK, Jeong Y, Ham SS. Anticancer activity of subfractions containing pure compounds of Chaga mushroom (Inonotus obliquus) extract in human cancer cells and in Balbc/c mice bearing Sarcoma-180 cells. Nutr Res Pract. 2010;4(3):177-182.

  31. Kang JH, Jang JE, Mishra SK, et al. Ergosterol peroxide from Chaga mushroom (Inonotus obliquus) exhibits anti-cancer activity by down-regulation of the β-catenin pathway in colorectal cancer. J Ethnopharmacol. 2015;173:303-312.

  32. Géry A, Dubreule C, André V, et al. Chaga (Inonotus obliquus), a future potential medicinal fungus in oncology? A chemical study and a comparison of the cytotoxicity against human lung adenocarcinoma cells (A549) and human bronchial epithelial cells (BEAS-2B). Integr Cancer Ther. 2018;17(3):832-843.

  33. Duru KC, Kovaleva EG, Danilova IG, van der Bijl P. The pharmacological potential and possible molecular mechanisms of action of Inonotus obliquus from preclinical studies. Phytother Res. 2019;33(8):1966-1980.

  34. Kim YR. Immunomodulatory activity of the water extract from medicinal mushroom Inonotus obliquus. Mycobiology. 2005;33(3):158-162.

  35. Lee IK, Kim YS, Jang YW, Jung JY, Yun BS. New antioxidant polyphenols from the medicinal mushroom Inonotus obliquus. Bioorg Med Chem Lett. 2007;17(24):6678-6681.

  36. Xu X, Wu Y, Chen H. Comparative antioxidative characteristics of polysaccharide- enriched extracts from natural sclerotia and cultured mycelia in submerged fermentation of Inonotus obliquus. Food Chem. 2011;127(1):74-79.

  37. Yue Z, Xiuhong Z, Shuyan Y, et al. Effect of Inonotus obliquus polysaccharides on physical fatigue in mice. J Ethnopharmacol. 2015;170:36-42.

  38. Hu Y, Sheng Y, Yu M, et al. Antioxidant activity of Inonotus obliquus polysaccharide and its amelioration for chronic pancreatitis in mice. Int J Biol Macromol. 2016;87:348-356.

  39. Giridharan VV, Thandavarayan RA, Konishi T. Amelioration of scopolamine induced cognitive dysfunction and oxidative stress by Inonotus obliquus - a medicinal mushroom. Food Funct. 2011;2(6):320-327.

  40. Lee SH, Hwang HS, Yun JW. Antitumor activity of water extract of a mushroom, Inonotus obliquus, against HT-29 human colon cancer cells. Phytother Res. 2009;23(12):1784-1789.

  41. Youn MJ, Kim JK, Park SY, et al. Chaga mushroom (Inonotus obliquus) induces G0/G1 arrest and apoptosis in human hepatoma HepG2 cells. World J Gastroenterol. 2008;14(4):511-517.

  42. Nakajima Y, Nishida H, Matsugo S, Konishi T. Cancer cell cytotoxicity of extracts and small phenolic compounds from Chaga [Inonotus obliquus (persoon) Pilat]. J Med Food. 2009;12(3):501-507.

  43. Mishra SK, Kang JH, Kim DK, et al. Orally administered aqueous extract of Inonotus obliquus ameliorates acute inflammation in dextran sulfate sodium (DSS)-induced colitis in mice. J Ethnopharmacol. 2012;143(2):524-532.

  44. Choi SY, Hur SJ, An CS, et al. Anti-inflammatory effects of Inonotus obliquus in colitis induced by dextran sodium sulfate. J Biomed Biotechnol. 2010;2010:943516.

  45. Yun JS, Pahk JW, Lee JS, et al. Inotodiol protects against oxidative stress-induced apoptosis via PI3K/Akt signaling in neuroblastoma cells. Molecules. 2018;23(11):2920.

  46. Geng Y, Lu ZM, Huang W, et al. Bioassay-guided isolation of DPP-4 inhibitory fractions from extracts of submerged cultured Inonotus obliquus. Molecules. 2013;18(1):1150- 1161.

  47. Sun JE, Ao ZH, Lu ZM, et al. Antihyperglycemic and antilipidperoxidative effects of dry matter of culture broth of Inonotus obliquus in submerged culture on normal and alloxan- diabetes mice. J Ethnopharmacol. 2008;118(1):7-13.

  48. Xu HY, Sun JE, Lu ZM, et al. Beneficial effects of the ethanol extract from the dry matter of a culture broth of Inonotus obliquus in submerged culture on the antioxidant defence system and regeneration of pancreatic β-cells in experimental diabetes. Nat Prod Res. 2010;24(6):542-553.

  49. Joo JI, Kim DH, Yun JW. Extract of Chaga mushroom (Inonotus obliquus) stimulates 3T3-L1 adipocyte differentiation. Phytother Res. 2010;24(11):1592-1599.

  50. Lee MW, Hur H, Chang KC, et al. Antitumor activity of water extract of a mushroom, Inonotus obliquus, against HT-29 human colon cancer cells. Phytother Res. 2009;23(12):1784-1789.

  51. Youn MJ, Kim JK, Park SY, et al. Potential anticancer properties of the water extract of Inonotus obliquus by induction of apoptosis in melanoma B16-F10 cells. J Ethnopharmacol. 2009;121(2):221-228.

  52. Chung MJ, Chung CK, Jeong Y, Ham SS. Anticancer activity of subfractions containing pure compounds of Chaga mushroom (Inonotus obliquus) extract in human cancer cells and in Balbc/c mice bearing Sarcoma-180 cells. Nutr Res Pract. 2010;4(3):177-182.

  53. Kang JH, Jang JE, Mishra SK, et al. Ergosterol peroxide from Chaga mushroom (Inonotus obliquus) exhibits anti-cancer activity by down-regulation of the β-catenin pathway in colorectal cancer. J Ethnoph

The information presented in this paper is based on publicly available data regarding ingredients and is intended for informational purposes only. It is not intended for marketing health claims or as a substitute for professional medical advice.

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Wild Harvested Chaga
(Inonotus obliquus)

Directions
  • Draw up the recommended dosage of liquid into the dropper.
  • Drop two full droppers into an 8oz cup of water. For faster absorption, put two droppers under your tongue for one minute then swallow.
  • Value chaga, rich in betulinic acid, for its impressive antioxidant properties.
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Drop two full droppers into an 8oz cup of water. For faster absorption, put two droppers under your tongue for one minute then swallow.

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