Cordyceps sinensis in its sexual stage is the primary form used.1 However, more than ten related species (in sexual and asexual stages) as well as artificially cultured mycelium are today used as substitutes in commercial preparations. C. sinensis, C. ophioglossoides, C. capita, and C. militaris are the most common species in commerce.
Our proprietary “Star-Rating” system was developed to help you easily understand the amount of scientific support behind each supplement in relation to a specific health condition. While there is no way to predict whether a vitamin, mineral, or herb will successfully treat or prevent associated health conditions, our unique ratings tell you how well these supplements are understood by the medical community, and whether studies have found them to be effective for other people.
For over a decade, our team has combed through thousands of research articles published in reputable journals. To help you make educated decisions, and to better understand controversial or confusing supplements, our medical experts have digested the science into these three easy-to-follow ratings. We hope this provides you with a helpful resource to make informed decisions towards your health and well-being.
3 StarsReliable and relatively consistent scientific data showing a substantial health benefit.
2 StarsContradictory, insufficient, or preliminary studies suggesting a health benefit or minimal health benefit.
1 StarFor an herb, supported by traditional use but minimal or no scientific evidence. For a supplement, little scientific support.
This supplement has been used in connection with the following health conditions:
3 to 4.5 grams twice per day
Cordyceps has repeatedly been shown effective in trials at improving liver and immune function in people with chronic hepatitis B, including those with cirrhosis.
Cordyceps has repeatedly been shown effective in clinical trials at reducing fibrosis and improving liver and immune function in people with chronic hepatitis B, including those with cirrhosis.3, 4, 5 The usual amount taken is 3 to 4.5 grams twice daily as capsules or simmered for 10 to 15 minutes in water to make tea.
Refer to label instructions
Cordyceps has immune-strengthening actions and may be helpful in a wide range of conditions in which the immune system is weakened.
Cordyceps has immune strengthening actions in human and animal studies.6, 7 Further research is needed but it may be helpful in a wide range of conditions in which the immune system is weakened. The usual amount taken is 3 to 4.5 grams twice daily as capsules or simmered for 10 to 15 minutes in water for tea.
Traditional Use (May Not Be Supported by Scientific Studies)
In ancient China, cordyceps was used in the Emperor’s palace and was considered to have ginseng-like properties.2 It was used to strengthen the body after exhaustion or long-term illness, and for impotence, neurasthenia, and backache. It was also used to cure opium addiction.
Cordyceps contains a wide variety of potentially important constituents, including polysaccharides, ophiocordin (an antibiotic compound), cordycepin, cordypyridones, nucleosides, bioxanthracenes, sterols, alkenoic acids, and exo-polymers.8, 9, 10, 11, 12, 13, 14
Many studies on the medicinal effects of cordyceps do not give a clear picture of its actions because many of the studies (1) are in animals or test tubes; (2) use different species, preparations, and intake levels; (3) inject cordyceps and/or its constituents rather than administering them orally; or (4) are not available in English and, therefore, cannot be reviewed for accuracy and design.
There are some clinical trials supporting the efficacy of cordyceps, particularly for liver, kidney, and immune problems. A number of studies indicate that cordyceps may have a anti-cancer, anti-metastatic, immuno-enhancing, and antioxidant effects.15, 16, 17, 18, 19
How to Use It
The recommended intake of cordyceps is 3 to 9 grams taken twice daily as a liquid extract, as food, or as powdered extract.20
Interactions with Supplements, Foods, & Other Compounds
At the time of writing, there were no well-known supplement or food interactions with this supplement.
Interactions with Medicines
As of the last update, we found no reported interactions between this supplement and medicines. It is possible that unknown interactions exist. If you take medication, always discuss the potential risks and benefits of adding a new supplement with your doctor or pharmacist.
The Drug-Nutrient Interactions table may not include every possible interaction. Taking medicines with meals, on an empty stomach, or with alcohol may influence their effects. For details, refer to the manufacturers’ package information as these are not covered in this table. If you take medications, always discuss the potential risks and benefits of adding a supplement with your doctor or pharmacist.
There are insufficient studies on the safety of cordyceps. However, it has a long history of use as a food and is generally considered safe.21 There is no information available about safety in pregnancy, lactation, or use in children.
There are two reported cases of lead poisoning associated with the use of apparently contaminated cordyceps powder.22 Cordyceps should only be purchased from companies that test to exclude heavy metal contamination.
1. Yue QC, Ning W, Hui Z, Liang HQ. Differentiation of medicinal Cordyceps species by rDNA ITS sequence analysis. Planta Med 2002;68:635–39.
2. Hobbs C. Medicinal Mushrooms: An exploration of tradition, healing and culture. Santa Cruz, CA: Botanica Press, 1995.
3. Gong HY, Wang KQ, Tang SG. Effects of Cordyceps sinensis on T lymphocyte subsets and hepatofibrosis in patients with chronic hepatitis B. Hunan Yi Ke Da Xue Bao 2000;25:248–50 [in Chinese].
4. Zhou L, Yang W, Xu Y, et al. Short-term curative effect of cultured Cordycepssinensis (Berk.) Sacc. Mycelia in chronic hepatitis B. Zhongguo Zhong Yao Za Zhi 1990;15:53–5, 65 [in Chinese].
5. Zhu JL, Liu C. Modulating effects of extractum semen persicae and cultivated cordyceps hyphae on immuno-dysfunction of inpatients with posthepatitic cirrhosis. Zhongguo Zhong Xi Yi Jie He Za Zhi 1992;12:207–9,195 [in Chinese].
6. Zhu JL, Liu C. Modulating effects of extractum semen persicae and cultivated cordyceps hyphae on immuno-dysfunction of inpatients with posthepatitic cirrhosis. Zhongguo Zhong Xi Yi Jie He Za Zhi 1992;12(4):207–9, 195 [in Chinese.
7. Nakamura K, Yamaguchi Y, Kagota S, et al. Activation of in vivo Kupffer cell function by oral administration of Cordyceps sinensis in rats. Jpn J Pharmacol 1999;79:505–8.
8. Ling YJ, Sun YJ, Zhang LvP, Zhang CK. Measurement of cordycepin and adenosine in stroma of Cordyceps sp. by capillary zone electrophoresis (CZE). J Biosci Bioeng 2002;94:371–74.
9. Yuan YS, Zhang L, Xu XF, et al. Determination of nucleosides in cordyceps by RP–HPLC. Chin Pharm J China 2002;37:776–8.
10. Isaka M, Tantichareon M, Thebtaranonth Y. Structures of cordypyridones A-D, antimalarial N-hydroxy- and N-methoxy-2-pyridones from the insect pathogenic fungus Cordyceps nipponica. J Org Chem 2001;66:4803–08.
11. Isaka M, Kongsaeree P, Thebtaranonth Y. Bioxanthracenes from the insect pathogenic fungus Cordyceps pseudomilitaris BCC 1620 II. Structure elucidation. J Antibiot 2001;54:36–43.
12. Isaka M, Tanticharoen M, Thebtaranonth Y. Cordyanhydrides A and B. Two unique anhydrides from the insect pathogenic fungus Cordyceps pseudomilitaris BCC 1620. Tetrahedron Lett 2000;41:1657–60.
13. Kim DH, Yang BK, Jeong SC, et al. A preliminary study on the hypoglycemic effect of the exo-polymers produced by five different medicinal mushrooms. J Microbiol Biotechn 2001;11:167–71.
14. Bok JW, Lermer L, Chilton J, et al. Antitumor sterols from the mycelia of Cordyceps sinensis. Phytochem 1999;51:891–898.
15. Nakamura K, Yamaguchi Y, Kagota S, et al. Activation of in vivo Kupffer cell function by oral administration of Cordyceps sinensis in rats. Jpn J Pharmacol 1999;79:505–8.
16. Nakamura K, Yamaguchi Y, Kagota S, et al. Inhibitory effect of Cordyceps sinensis on spontaneous liver metastasis of Lewis lung carcinoma and B16 melanoma cells in syngenic mice. Jpn J Pharmacol 1999;79:335–41.
17. Lui JL, Lui RY. Enhancement of cordyceps tail polysaccharide on cellular immunological function in vitro. Chin Pharm J China 2001;36:738–41 [in Chinese].
18. Shin KH, Lim SS, Lee SH, et al. Antioxidant and immunostimulating activities of the fruiting bodies of Paecilomyces japonica, a new type of Cordyceps sp. Ann NY Acad Sci 2001;928:261–73.
19. Yamaguchi Y, Kagota S, Nakamura K, et al. Antioxidant activity of the extracts from fruiting bodies of cultured Cordyceps sinensis. Phytother Res 2000;14:647–9.
20. Hobbs C. Medicinal Mushrooms: An exploration of tradition, healing and culture. Santa Cruz, CA: Botanica Press, 1995.
21. McGuffin M, Hobbs C, Upton R, Goldberg A. American Herbal Products Association’s Botanical Safety Handbook. Boca Raton, FL: CRC Press, 1998.
22. Wu TN, Yang KC, Wang CM, et al. Lead poisoning caused by contaminated Cordyceps, a Chinese herbal medicine: Two case reports. Sci Total Environ 1996;182:193–5.
The information presented in Aisle7 is for informational purposes only. It is based on scientific studies (human, animal, or in vitro), clinical experience, or traditional usage as cited in each article. The results reported may not necessarily occur in all individuals. For many of the conditions discussed, treatment with prescription or over the counter medication is also available. Consult your doctor, practitioner, and/or pharmacist for any health problem and before using any supplements or before making any changes in prescribed medications. Information expires June 2014.
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