(With secret pores, Contains a volva)
Pouch fungus, Cryptic globe fungus, veiled polypore
Between the pore surface and the outer tissue, spores fall into a cavity where they are trapped. With no exposure to the outside world, the spore dispersal is quite different than usual among the polypores. Since the wind cannot take the spores away into the wilds of the forest, it has some beetle allies that help it to spread the ‘seed’ along. When the spores are released, a small space appears in the outer tissue as well as a resinous odor that attracts hungry wood-boring beetles, who are then warmly welcomed inside the mushroom. They go in to this new home made of food and they consume the mushroom’s tubes and so the spores as well. The beetles then carry these spores away with them and bore into a new tree whilst inoculating it with the C. volvatus spores.
Deadwood of conifers, found growing in small groups, but dispersed. Favors trees that have recently fallen, been burned…generally in a state of decay. Said to be found summer and fall, though it is common year round in the Pacific West.
Active Known Constituents
- Volatile oils
- Amino acids
- Cryptoporic acids
Spore Print- Pinkish
Anti-tumor, Anti-allergy, Anti-viral, Anti-inflammatory, Immunomodulatory
- Documented in the Materia Medica of Yunnan, the fruiting body has been used for asthma and bronchitis dating back to the 15th century AD
- When given at dose of 5mg/ml, the H1N1 virus was blocked by the aqueous extract. Compared to the control group, there was only 20% virus entry into cells.
- The aqueous extract also exhibits antiviral activity against Influenza A virus in vitro and in vivo.
- It has been shown to inhibit both early and late stages in virus replication1
- Studies have showed strong antioxidant, free radical scavenging activity2
- Cytotoxic activity was observed against human cervix epithelia carcinoma cell lines (Hela) and human hepatoma cell lines. 3
- Some traditional uses of this mushroom include use in tracheitis, asthma, hemorrhoids, anti-decrepitude, toothache, and anti-inflammatory 3
- The polysaccharides in the H20 extract from the fruiting body significantly alleviated symptoms of allergic rhinitis and asthma. 4
- For soar throat, place five to eight pieces, that have been previously simmered in water, in the mouth without chewing. 5
- Cryptoporus polysaccharide treatment down regulates LPS-mediated inflammation in lung epithelial cells. This can be a helpful anti-inflammatory for the treatment of airway inflammatory diseases. 6
Transforms phlegm and stops coughing
- used in TCM to stop bleeding in the intestines, to treat hemorrhoids, carbuncles, furuncles, and toothache. Traditionally decocted as an anti-inflammatory for asthma and bronchial conditions.
Preparation of Dual Extract
See Fomitopsis pinicola preparation
- Gao L, Sun Y, Si J, Liu J, Sun G, et al. (2014) Cryptoporus volvatusExtract Inhibits Influenza Virus Replication In Vitroand In Vivo. PLoS ONE 9(12)
- Lee, Jaejung, Joo-Hyun Hong, Jeong-Do Kim, Byoung Jun Ahn, Beom Seok Kim, Gyu-Hyeok Kim, and Jae-Jin Kim. “The Antioxidant Properties of Solid-culture Extracts of Basidiomycetous Fungi.” J. Gen. Appl. Microbiol. The Journal of General and Applied Microbiology59.4 (2013): 279-85. Web.
- G. Ren, X.Y. Liu, H.K. Zhu, S.Z. Yang, C.X. Fu, Evaluation of cytotoxic activities of some medicinal polypore fungi from China, Fitoterapia, Volume 77, Issue 5, July 2006, Pages 408-410, ISSN 0367-326X
- Qiang-Min Xie, Jun-Fang Deng, Yang-Mei Deng, Chuan-Sen Shao, Hui Zhang, Chuan-Kui Ke, Effects of cryptoporus polysaccharide on rat allergic rhinitis associated with inhibiting eotaxin mRNA expression, Journal of Ethnopharmacology, Volume 107, Issue 3, 11 October 2006, Pages 424-430
- Rogers, Robert Dale. The Fungal Pharmacy: The Complete Guide to Medicinal Mushrooms and Lichens of North America. Berkeley, CA: North Atlantic, 2011. Print.Fungal Pharm.
- Zhu, Jian-Ping, Kai Wu, Jin-You Li, Yan Guan, Yan-Hong Sun, Wen-Jiang Ma, and Qiang-Min Xie. “Cryptoporus Volvatus Polysaccharides Attenuate LPS-induced Expression of Pro-inflammatory Factors via the TLR2 Signaling Pathway in Human Alveolar Epithelial Cells.” Pharmaceutical Biology(2015): 1-7. Web.