acido alfa-lipoico alfaalfa argento colloidale argento colloidale family pack argento colloidale ionico (colloidal silver) ayapana caigua cha de bugre clavillia cmo plus cordyceps sinensis fedegoso graviola graviola graviola max msm glucosamina condroitina n-tense pau d'arco progesterone naturale yerba mate Tutti i tag
Miscela di piante della foresta pluviale che vantano una storia di utilizzo come rimedi popolari per il supporto e la disintossicazione dell'apparato urinario.
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Ingredienti: 100% pura miscela di chanca piedra, anamu, jatoba, Brazilian peppertree, pau d'arco, erva tostão, guaco.
Uso consigliato: come integratore alimentare. Assumere 2-3 capsule tre volte al giorno
Controindicazioni: Non usare durante la gravidanza o l'allattamento.
Interazioni con farmaci: Potrebbe potenziare gli anticoagulanti e gli anti-ipertensivi
Altre indicazioni pratiche:
- Studi hanno documentato che alcune piante in questa formulazione potrebbero ridurre la pressione arteriosa. Si consiglia agli individui che soffrono di bassa pressione un monitoraggio per questo possibile effetto.
- É stato dimostrato che alcune piante contenute in questa formulazione hanno effetti anti-microbici. Se si assume la formulazione per più di 30 giorni, si consiglia l'integrazione con probiotici.
Precauzioni: Non superare la dose giornaliera raccomandata. Questo prodotto è un supplemento nutrizionale che non deve sostituire un’alimentazione varia ed equilibrata. Tenere lontano dalla portata dei bambini al di sotto dei 3 anni. Conservare al riparo dalla luce, da fonti di calore e dall’umidità. Come con ogni supplemento nutrizionale, consultare un medico prima di assumerlo durante la gravidanza, l’allattamento o nel caso di problemi di salute.
Bibliografia
Chanca Piedra (Phyllanthus niruri, amarus)
Srividya, N., et al. "Diuretic, hypotensive and hypoglycaemic effect of Phyllanthus amarus." Indian J. Exp. Biol. 1995; 33(11): 861-64.
Kloucek, P., et al. “Antibacterial screening of some Peruvian medicinal plants used in Calleria District.” J. Ethnopharmacol. 2005 Jun; 99(2): 309-12.
Agrawal, A., et al. “Evaluation of inhibitory effect of the plant Phyllanthus amarus against dermatophytic fungi Microsporum gypseum.” Biomed. Environ. Sci. 2004 Sep; 17(3): 359-65.
Farouk, A., et al. “Antimicrobial activity of certain Sudanese plants used in folkloric medicine. Screening for antibacterial activity (I).” Fitoterapia 1983; 54(1): 3–7.
Nishiura, J. L., et al. “Phyllanthus niruri normalizes elevated urinary calcium levels in calcium stone forming (CSF) patients.” Urol. Res. 2004 Oct; 32(5): 362-6.
Barros, M. E., et al. “Effects of an aqueous extract from Phyllanthus niruri on calcium oxalate crystallization in vitro.” Urol. Res. 2003; 30(6): 374-9.
Freitas, A. M., et al. “The effect of Phyllanthus niruri on urinary inhibitors of calcium oxalate crystallization and other factors associated with renal stone formation.” B. J. U. Int. 2002; 89(9): 829–34.
Campos, A. H., et al. “Phyllanthus niruri inhibits calcium oxalate endocytosis by renal tubular cells: its role in urolithiasis.” Nephron. 1999; 81(4): 393–97.
Anamu (Petiveria alliacea)
Kim, S., et al. “Antibacterial and antifungal activity of sulfur-containing compounds from Petiveria alliacea L.” J. Ethnopharmacol. 2005 Oct 13;
Kubec, R., et al. “The lachrymatory principle of Petiveria alliacea.” Phytochemistry. 2003 May; 63(1): 37-40.
Ruffa, M. J., et al. “Antiviral activity of Petiveria alliacea against the bovine diarrhea virus. Chemotherapy 2002; 48(3): 144-47.
Benevides, P. J., et al. “Antifungal polysulphides from Petiveria alliacea L.” Phytochemistry. 2001; 57(5): 743-7.
Caceres, A., et al. “Plants used in Guatemala for the treatment of protozoal infections. I. Screening of activity to bacteria, fungi and American trypanosomes of 13 native plants.” J. Ethnopharmacol. 1998 Oct; 62(3): 195-202.
Caceres, A., et al. “Plants used in Guatemala for the treatment of dermatophytic infections. I. Screening for antimycotic activity of 44 plant extracts.” J. Ethnopharmacol. 1991; 31(3): 263-76.
Von Szczepanski, C., et al. “Isolation, structure elucidation and synthesis of an antimicrobial substance from Petiveria alliacea.” Arzneim-Forsch 1972; 22: 1975–.
Jatobá (Hymenaea courbaril)
Abdel-Kader, M., et al. “Isolation and absolute configuration of ent-Halimane diterpenoids from Hymenaea courbaril from the Suriname rain forest.” J. Nat. Prod. 2002; 65(1): 11-5.
Yang, D., et al. “Use of caryophyllene oxide as an antifungal agent in an in vitro experimental model of onychomycosis.” Mycopathologia. 1999; 148(2): 79–82.
Rahalison, L., et al. “Screening for antifungal activity of Panamanian plants.” Inst. J. Pharmacog. 1993; 31(1): 68–76.
Verpoorte, R., et al. “Medicinal plants of Surinam. IV. Antimicrobial activity of some medicinal plants.” J. Ethnopharmacol. 1987; 21(3): 315–18.
Arrhenius, S.P., et al. “Inhibitory effects of Hymenaea and Copaifera leaf resins on the leaf fungus, Pestalotia subcuticulari.” Biochem. Syst. Ecol. 1983; 11(4): 361–66.
Giral, F., et al. “Ethnopharmacognostic observation on Panamanian medicinal plants. Part 1.” Q. J. Crude Drug Res. 1979; 167(3/4): 115–30.
Brazilian Peppertree (Schinus molle)
Carneiro, W. M., et al. “Anti-inflammatory and wound healing action of Schinus aroeira Vell in patients with cervicitis and cervico-vaginitis.” Rev. Inst. Antibiot. 1974; 14(1–2): 105–6.
de Lima, M. R., et al. “Anti-bacterial activity of some Brazilian medicinal plants.” J. Ethnopharmacol. 2005 Dec 12;
Schmourlo, G., et al. “Screening of antifungal agents using ethanol precipitation and bioautography of medicinal and food plants.” J. Ethnopharmacol. 2005 Jan; 96(3): 563-8.
de Melo, Jr., E. J., et al. “Medicinal plants in the healing of dry socket in rats: Microbiological and microscopic analysis.” Phytomedicine. 2002; 9(2): 109–16.
Quiroga, E. N., et al. “Screening antifungal activities of selected medicinal plants.” J. Ethnopharmacol. 2001; 74(1): 89–96.
Martinez, M. J., et al. “Screening of some Cuban medicinal plants for antimicrobial activity.” J. Ethnopharmacol. 1996; 52(3): 171–74.
Gundidza, M., et al. “Antimicrobial activity of essential oil from Schinus molle Linn.” Central African J. Med. 1993; 39(11): 231–34.
Dikshit, A. “Schinus molle: a new source of natural fungitoxicant.” Appl. Environ. Microbiol. 1986; 51(5): 1085–88.
El-Keltawi, N., et al. “Antimicrobial activity of some Egyptian aromatic plants.” Herba Pol. 1980; 26(4): 245–50.
Ross, S., et al. “Antimicrobial activity of some Egyptian aromatic plants.” Fitoterapia. 1980; 51: 201–5.
Pau d'arco (Tabebuia impetiginosa)
Park, B. S., et al. “Selective growth-inhibiting effects of compounds identified in Tabebuia impetiginosa inner bark on human intestinal bacteria.” J. Agric. Food Chem. 2005 Feb; 23;53(4): 1152-7.
Park, B. S., et al. “Antibacterial activity of Tabebuia impetiginosa Martius ex DC (Taheebo) against Helicobacter pylori.” J. Ethnopharmacol. 2005 Dec;
Machado, T. B., et al. “In vitro activity of Brazilian medicinal plants, naturally occurring naphthoquinones and their analogues, against methicillin-resistant Staphylococcus aureus.” Int. J. Antimicrob. Agents. 2003; 21(3): 279-84.
Portillo, A., et al. “Antifungal activity of Paraguayan plants used in traditional medicine.” J. Ethnopharmacol. 2001; 76(1): 93–8.
Nagata, K., et al. “Antimicrobial activity of novel furanonaphthoquinone analogs.” Antimicrobial Agents Chemother. 1998; 42(3): 700–2.
Binutu, O. A., et al. “Antimicrobial potentials of some plant species of the Bignoniaceae family.” Afr. J. Med. Sci. 1994; 23(3): 269–73.
Giuraud, P., et al. “Comparison of antibacterial and antifungal activities of lapachol and b-lapachone.” Planta Med. 1994; 60: 373–74.
Anesini, C., et al. “Screening of plants used in Argentine folk medicine for antimicrobial activity.” J. Ethnopharmacol. 1993; 39(2): 119–28.
Gershon, H., et al. “Fungitoxicity of 1,4-naphthoquinonoes to Candida albicans and Trichophyton menta grophytes.” Can. J. Microbiol. 1975; 21: 1317–21.
Erva Tostâo (Boerhaavia diffusa)
Devi, M. V., et al. “Effect of Phyllanthus niruri on the diuretic activity of punarnava tablets." J. Res. Edu. Ind. Med. 1986; 5(1): 11–12.
Mishra, J. P., et al. “Studies on the effect of indigenous drug Boerhaavia diffusa Rom. on kidney regeneration." Indian J. Pharmacy 1980; 12: 59.
Mudgal, V. “Studies on medicinal properties of Convolvulus pluricaulis and Boerhaavia diffusa.” Planta Med. 1975; 28: 62.
Gaitonde, B. B., et al. “Diuretic activity of punarnava (Boerhaavia diffusa).” Bull. Haffkine Inst. 1974; 2: 24.
Chowdhury, A., et al. “Boerhaavia diffusa: effect on diuresis and some renal enzymes." Ann. Biochem. Exp. Med. 1955; 15: 119–26.
Singh, R. P., et al. “Recent approach in clinical and experimental evaluation of diuretic action of punarnava (B. diffusa) with special reference to nephrotic syndrome." J. Res. Edu. Ind. Med. 1955; 7(1): 29-35.
Agrawal, A., et al. “Inhibitory effect of the plant Boerhavia diffusa L. against the dermatophytic fungus Microsporum fulvum.” J. Environ. Biol. 2004 Jul; 25(3): 307-11.
Agrawal, A., et al. “Antifungal activity of Boerhavia diffusa against some dermatophytic species of Microsporum.” Hindustan Antibiot. Bull. 2003 Feb-2004 Nov; 45-46(1-4): 1-4.
Qureshi S, et al. “In vitro evaluation of inhibitory nature of extracts of 18-plant species of Chhindwara against 3-keratinophilic fungi.” Hindustan. Antibiot. Bull. 1997 Feb-Nov; 39(1-4): 56-60.
Olukoya, D., et al. “Antibacterial activity of some medicinal plants from Nigeria.” J. Ethnopharmacol. 1993; 39(1): 69–72.
Guaco (Mikania guaco)
Yatsuda, R., et al. “Effects of Mikania genus plants on growth and cell adherence of Mutans streptococci.” J. Ethnopharmacol. 2005; 97(2): 183-9.
Duarte, M. C., et al. “Anti-candida activity of Brazilian medicinal plants.” J. Ethnopharmacol. 2005; 97(2): 305.
Holetz, F. B. “Screening of some plants used in the Brazilian folk medicine for the treatment of infectious diseases.” Mem. Inst. Oswaldo Cruz. 2002 Oct; 97(7): 1027-31.
Rungeler, P., et al. “Germacranolides from Mikania guaco." Phytochemistry 2001; 56(5): 475-89.
Muelas-Serrano, S., “In vitro screening of American plant extracts on Trypanosoma cruzi and Trichomonas vaginalis.” J. Ethnopharmacol. 2000; 71(1-2): 101-7.
Rojas de Arias, A., et al. “Mutagenicity, insecticidal and trypanocidal activity of some Paraguayan Asteraceae.” J. Ethnopharmacol. 1995; 45(1): 35-41.
Davino, S. C., et al. “Antimicrobial activity of kaurenoic acid derivatives substituted on carbon-15.” Braz. J. Med. Biol. Res. 1989; 22(9): 1127-9.
AVVERTENZA: Le informazioni fornite in queste pagine hanno solo scopo informativo e sono tratte da pubblicazioni internazionali. Le proprietà naturali delle erbe sono unicamente da riferire alle comuni utilizzazioni nella tradizione popolare ed erboristica. I nostri prodotti non si propongono di diagnosticare, trattare, curare o prevenire alcuna malattia. Non si intende fornire suggerimenti per diagnosi o trattamenti di malattie. In caso di necessità consultare un medico.