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FOR RESOLVING SULFITE AND SULFA DRUG TOXICITY
Sparga is an extract of the root of Asparagus officinalis and is used to resolve Sulfite and/or Sulfa drug toxicity. This condition appears to block the efficient production of reduced L-glutathione, thus inhibiting the body's ability to eliminate toxins. The problem with sulfite and sulfa drugs likely results from a genetic up-regulation of the Cystathionine-Beta-Synthase (CBS) enzyme or a genetic down-regulation of Sulfite Oxidase (SuOx). When this occurs, sulfite and sulfa drugs build up in that individual, blocking glutathione production and blocking uptake of lipoic acid and sulfur amino acids thus making detoxification inefficient, in which case the toxins that are held up in the body weaken the immune system and the organs, and the patient is predisposed to chronic infection. The CBS and/or SuOx genes may cause sulfites and sulfa drugs to build up to a high enough level in the body so as to possibly block the cell's ability to take up sulfur amino acids (cysteine, methionine, and taurine) as well as Glutathione and Lipoic Acid. The absence of these nutrients in the cells can impair detoxification from the cells.
ANTI-ARTHRITIC
ANTI-DIABETIC
ANTI-INFLAMMATORY
ANTIOXIDANT
ANTI-RHEUMATIC
ANTI-TUMOR
ANTI-VIRAL
APHRODISIAC
CYTOTOXIC
DIURETIC
HEPATOPROTECTIVE
NEUROPROTECTIVE
SEDATIVE
An acute oral toxicity study was conducted by the University of Guayaquil, Ecuador concluding that Sparga did not produce toxic effects, thus the product is considered practically innocuous for humans when administered in the acute form. Therefore; studies of acute toxicity at higher doses in humans are not necessary. Full Article
Bousserouel, S., Le Grandois, J., Gossé, F., Werner, D., Barth, S. W., Marchioni, E., ... & Raul, F. (2013). Methanolic extract of white asparagus shoots activates TRAIL apoptotic death pathway in human cancer cells and inhibits colon carcinogenesis in a preclinical model. International Journal of Oncology, 43(2), 394-404. Full Article
Hafizur, R. M., Kabir, N., & Chishti, S. (2012). Asparagus officinalis extract controls blood glucose by improving insulin secretion and β-cell function in streptozotocin-induced type 2 diabetic rats. British Journal of Nutrition, 108(9), 1586-1595. Full Article
Zhao, J., Zhang, W., Zhu, X., Zhao, D., Wang, K., Wang, R., & Qu, W. (2011). The aqueous extract of Asparagus officinalis L. by‐product exerts hypoglycaemic activity in streptozotocin‐induced diabetic rats. Journal of the Science of Food and Agriculture, 91(11), 2095-2099. Full Article
Wang, J., Liu, Y., Zhao, J., Zhang, W., & Pang, X. (2013). Saponins extracted from by‐product of Asparagus officinalis L. suppress tumour cell migration and invasion through targeting Rho GTPase signalling pathway. Journal of the Science of Food and Agriculture, 93(6), 1492-1498. Full Article
Huang, X. F., Lin, Y. Y., & Kong, L. Y. (2008). Steroids from the roots of Asparagus officinalis and their cytotoxic activity. Journal of Integrative Plant Biology, 50(6), 717-722. Full Article
Li, X. M., Cai, J. L., Wang, L., Wang, W. X., Ai, H. L., & Mao, Z. C. (2017). Two new phenolic compounds and antitumor activities of asparinin A from Asparagus officinalis. Journal of Asian natural products research, 19(2), 164-171. Full Article
Wang, H., & Ng, T. B. (2001). Isolation of a novel deoxyribonuclease with antifungal activity from Asparagus officinalis seeds. Biochemical and Biophysical Research Communications, 289(1), 120-124. Full Article
Shimoyamada, M., Suzuki, M., Maruyama, M., & Watanabe, K. (1996). An antifungal saponin from white asparagus (Asparagus officinalis L) bottoms. Journal of the Science of Food and Agriculture, 72(4), 430-434. Full Article
Shimoyamada, M., Suzuki, M., Sonta, H., Maruyama, M., & Okubo, K. (1990). Antifungal activity of the saponin fraction obtained from Asparagus officinalis L. and its active principle. Agricultural and Biological Chemistry, 54(10), 2553-2557. Full Article
Symes, A., Shavandi, A., Zhang, H., Mohamed Ahmed, I. A., Al-Juhaimi, F. Y., & Bekhit, A. E. D. A. (2018). Antioxidant Activities and Caffeic Acid Content in New Zealand Asparagus (Asparagus officinalis) Roots Extracts. Antioxidants, 7(4), 52. Full Article
Fan, R., Yuan, F., Wang, N., Gao, Y., & Huang, Y. (2015). Extraction and analysis of antioxidant compounds from the residues of Asparagus officinalis L. Journal of Food Science and Technology, 52(5), 2690-2700. Full Article
Lee, J. W., Lee, J. H., Yu, I. H., Gorinstein, S., Bae, J. H., & Ku, Y. G. (2014). Bioactive compounds, antioxidant and binding activities and spear yield of Asparagus officinalis L. Plant Foods for Human Nutrition, 69(2), 175-181. Full Article
Zhao, Q., Xie, B., Yan, J., Zhao, F., Xiao, J., Yao, L., ... & Huang, Y. (2012). In vitro antioxidant and antitumor activities of polysaccharides extracted from Asparagus officinalis. Carbohydrate Polymers, 87(1), 392-396. Full Article
Khorasani, A., Sani, W., Philip, K., Taha, R. M., & Rafat, A. (2010). Antioxidant and antibacterial activities of ethanolic extracts of Asparagus officinalis cv. Mary Washington: Comparison of in vivo and in vitro grown plant bioactivities. African Journal of Biotechnology, 9(49), 8460-8466. Full Article
Makris, D. P., & Rossiter, J. T. (2001). Domestic processing of onion bulbs (Allium cepa) and asparagus spears (Asparagus officinalis): effect on flavonol content and antioxidant status. Journal of Agricultural and Food Chemistry, 49(7), 3216-3222. Full Article
Kim, B. Y., Cui, Z. G., Lee, S. R., Kim, S. J., Kang, H. K., Effects of Asparagus officinalis extracts on liver cell toxicity and ethanol metabolism Lee, Y. K., & Park, D. B. (2009).. Journal of Food Science, 74(7), H204-H208. Full Article
Zhu, X., Zhang, W., Pang, X., Wang, J., Zhao, J., & Qu, W. (2011). Hypolipidemic Effect of n‐Butanol Extract from Asparagus officinalis L. in Mice fed a High‐fat Diet. Phytotherapy Research, 25(8), 1119-1124. Full Article
Zhu, X., Zhang, W., Zhao, J., Wang, J., & Qu, W. (2010). Hypolipidaemic and hepatoprotective effects of ethanolic and aqueous extracts from Asparagus officinalis L. by‐products in mice fed a high‐fat diet. Journal of the Science of Food and Agriculture, 90(7), 1129-1135. Full Article
Iqbal, M., Bibi, Y., Raja, N. I., Ejaz, M., Hussain, M., Yasmeen, F., ... & Imran, M. (2017). Review on Therapeutic and Pharmaceutically Important Medicinal Plant Asparagus officinalis L. Journal of Plant Biochemistry and Physiology, 5, 180. Full Article
Cowden Support Program for Lyme: Observational Study – Dublin, Ireland – June, 2012 Armin Schwarzbach, MD PhD Full Video
"I tried detoxes before, but my detox pathways were blocked. After starting Sparga, the toxins were being eliminated quickly. Sparga helped me recalibrate my whole body and my weight and joint pain dropped and my skin cleared up! Sparga is really amazing!” -O.N.
“I have used Sparga Sulphur Detox by NutraMedix for 10 months. Recommended by my MD to help with detoxifying from 9 months of daily IV treatments. Wonderful product. Love NutraMedix.” – A.N
“Sparga Sulphur Detox by NutaMedix helps so much for those of us fighting chronic illnesses! Can always count on this company!” – e A.P
“I used 10 drops 2x per day to lower my urine sulfate level and Sparga Sulphur Detox by NutraMedix has reduced my level in just 3 days.” -P.S.
“I have Lyme disease that manifests as Rheumatoid arthritis. The Asparagus extract does seem to help quite a bit.” -P.U.
10 drops twice daily for 3-4 months helps to resolve Sulfite and/or Sulfa drug toxicity.
An acute oral toxicity study was conducted by the University of Guayaquil, Ecuador concluding that Sparga did not produce toxic effects, thus the product is considered practically innocuous for humans when administered in the acute form. Therefore; studies of acute toxicity at higher doses in humans are not necessary. Full Article
FOR RESOLVING SULFITE AND SULFA DRUG TOXICITY
Sparga is an extract of the root of Asparagus officinalis and is used to resolve Sulfite and/or Sulfa drug toxicity. This condition appears to block the efficient production of reduced L-glutathione, thus inhibiting the body's ability to eliminate toxins. The problem with sulfite and sulfa drugs likely results from a genetic up-regulation of the Cystathionine-Beta-Synthase (CBS) enzyme or a genetic down-regulation of Sulfite Oxidase (SuOx). When this occurs, sulfite and sulfa drugs build up in that individual, blocking glutathione production and blocking uptake of lipoic acid and sulfur amino acids thus making detoxification inefficient, in which case the toxins that are held up in the body weaken the immune system and the organs, and the patient is predisposed to chronic infection. The CBS and/or SuOx genes may cause sulfites and sulfa drugs to build up to a high enough level in the body so as to possibly block the cell's ability to take up sulfur amino acids (cysteine, methionine, and taurine) as well as Glutathione and Lipoic Acid. The absence of these nutrients in the cells can impair detoxification from the cells.
ANTI-ARTHRITIC
ANTI-DIABETIC
ANTI-INFLAMMATORY
ANTIOXIDANT
ANTI-RHEUMATIC
ANTI-TUMOR
ANTI-VIRAL
APHRODISIAC
CYTOTOXIC
DIURETIC
HEPATOPROTECTIVE
NEUROPROTECTIVE
SEDATIVE
An acute oral toxicity study was conducted by the University of Guayaquil, Ecuador concluding that Sparga did not produce toxic effects, thus the product is considered practically innocuous for humans when administered in the acute form. Therefore; studies of acute toxicity at higher doses in humans are not necessary. Full Article
Bousserouel, S., Le Grandois, J., Gossé, F., Werner, D., Barth, S. W., Marchioni, E., ... & Raul, F. (2013). Methanolic extract of white asparagus shoots activates TRAIL apoptotic death pathway in human cancer cells and inhibits colon carcinogenesis in a preclinical model. International Journal of Oncology, 43(2), 394-404. Full Article
Hafizur, R. M., Kabir, N., & Chishti, S. (2012). Asparagus officinalis extract controls blood glucose by improving insulin secretion and β-cell function in streptozotocin-induced type 2 diabetic rats. British Journal of Nutrition, 108(9), 1586-1595. Full Article
Zhao, J., Zhang, W., Zhu, X., Zhao, D., Wang, K., Wang, R., & Qu, W. (2011). The aqueous extract of Asparagus officinalis L. by‐product exerts hypoglycaemic activity in streptozotocin‐induced diabetic rats. Journal of the Science of Food and Agriculture, 91(11), 2095-2099. Full Article
Wang, J., Liu, Y., Zhao, J., Zhang, W., & Pang, X. (2013). Saponins extracted from by‐product of Asparagus officinalis L. suppress tumour cell migration and invasion through targeting Rho GTPase signalling pathway. Journal of the Science of Food and Agriculture, 93(6), 1492-1498. Full Article
Huang, X. F., Lin, Y. Y., & Kong, L. Y. (2008). Steroids from the roots of Asparagus officinalis and their cytotoxic activity. Journal of Integrative Plant Biology, 50(6), 717-722. Full Article
Li, X. M., Cai, J. L., Wang, L., Wang, W. X., Ai, H. L., & Mao, Z. C. (2017). Two new phenolic compounds and antitumor activities of asparinin A from Asparagus officinalis. Journal of Asian natural products research, 19(2), 164-171. Full Article
Wang, H., & Ng, T. B. (2001). Isolation of a novel deoxyribonuclease with antifungal activity from Asparagus officinalis seeds. Biochemical and Biophysical Research Communications, 289(1), 120-124. Full Article
Shimoyamada, M., Suzuki, M., Maruyama, M., & Watanabe, K. (1996). An antifungal saponin from white asparagus (Asparagus officinalis L) bottoms. Journal of the Science of Food and Agriculture, 72(4), 430-434. Full Article
Shimoyamada, M., Suzuki, M., Sonta, H., Maruyama, M., & Okubo, K. (1990). Antifungal activity of the saponin fraction obtained from Asparagus officinalis L. and its active principle. Agricultural and Biological Chemistry, 54(10), 2553-2557. Full Article
Symes, A., Shavandi, A., Zhang, H., Mohamed Ahmed, I. A., Al-Juhaimi, F. Y., & Bekhit, A. E. D. A. (2018). Antioxidant Activities and Caffeic Acid Content in New Zealand Asparagus (Asparagus officinalis) Roots Extracts. Antioxidants, 7(4), 52. Full Article
Fan, R., Yuan, F., Wang, N., Gao, Y., & Huang, Y. (2015). Extraction and analysis of antioxidant compounds from the residues of Asparagus officinalis L. Journal of Food Science and Technology, 52(5), 2690-2700. Full Article
Lee, J. W., Lee, J. H., Yu, I. H., Gorinstein, S., Bae, J. H., & Ku, Y. G. (2014). Bioactive compounds, antioxidant and binding activities and spear yield of Asparagus officinalis L. Plant Foods for Human Nutrition, 69(2), 175-181. Full Article
Zhao, Q., Xie, B., Yan, J., Zhao, F., Xiao, J., Yao, L., ... & Huang, Y. (2012). In vitro antioxidant and antitumor activities of polysaccharides extracted from Asparagus officinalis. Carbohydrate Polymers, 87(1), 392-396. Full Article
Khorasani, A., Sani, W., Philip, K., Taha, R. M., & Rafat, A. (2010). Antioxidant and antibacterial activities of ethanolic extracts of Asparagus officinalis cv. Mary Washington: Comparison of in vivo and in vitro grown plant bioactivities. African Journal of Biotechnology, 9(49), 8460-8466. Full Article
Makris, D. P., & Rossiter, J. T. (2001). Domestic processing of onion bulbs (Allium cepa) and asparagus spears (Asparagus officinalis): effect on flavonol content and antioxidant status. Journal of Agricultural and Food Chemistry, 49(7), 3216-3222. Full Article
Kim, B. Y., Cui, Z. G., Lee, S. R., Kim, S. J., Kang, H. K., Effects of Asparagus officinalis extracts on liver cell toxicity and ethanol metabolism Lee, Y. K., & Park, D. B. (2009).. Journal of Food Science, 74(7), H204-H208. Full Article
Zhu, X., Zhang, W., Pang, X., Wang, J., Zhao, J., & Qu, W. (2011). Hypolipidemic Effect of n‐Butanol Extract from Asparagus officinalis L. in Mice fed a High‐fat Diet. Phytotherapy Research, 25(8), 1119-1124. Full Article
Zhu, X., Zhang, W., Zhao, J., Wang, J., & Qu, W. (2010). Hypolipidaemic and hepatoprotective effects of ethanolic and aqueous extracts from Asparagus officinalis L. by‐products in mice fed a high‐fat diet. Journal of the Science of Food and Agriculture, 90(7), 1129-1135. Full Article
Iqbal, M., Bibi, Y., Raja, N. I., Ejaz, M., Hussain, M., Yasmeen, F., ... & Imran, M. (2017). Review on Therapeutic and Pharmaceutically Important Medicinal Plant Asparagus officinalis L. Journal of Plant Biochemistry and Physiology, 5, 180. Full Article
Cowden Support Program for Lyme: Observational Study – Dublin, Ireland – June, 2012 Armin Schwarzbach, MD PhD Full Video
"I tried detoxes before, but my detox pathways were blocked. After starting Sparga, the toxins were being eliminated quickly. Sparga helped me recalibrate my whole body and my weight and joint pain dropped and my skin cleared up! Sparga is really amazing!” -O.N.
“I have used Sparga Sulphur Detox by NutraMedix for 10 months. Recommended by my MD to help with detoxifying from 9 months of daily IV treatments. Wonderful product. Love NutraMedix.” – A.N
“Sparga Sulphur Detox by NutaMedix helps so much for those of us fighting chronic illnesses! Can always count on this company!” – e A.P
“I used 10 drops 2x per day to lower my urine sulfate level and Sparga Sulphur Detox by NutraMedix has reduced my level in just 3 days.” -P.S.
“I have Lyme disease that manifests as Rheumatoid arthritis. The Asparagus extract does seem to help quite a bit.” -P.U.
10 drops twice daily for 3-4 months helps to resolve Sulfite and/or Sulfa drug toxicity.
An acute oral toxicity study was conducted by the University of Guayaquil, Ecuador concluding that Sparga did not produce toxic effects, thus the product is considered practically innocuous for humans when administered in the acute form. Therefore; studies of acute toxicity at higher doses in humans are not necessary. Full Article
All products are shipped from Cyprus to Cyprus and the rest of the world with fast delivery Courier.
See shipping and delivery details below:
For Cyprus:
Free to Door Delivery Above €50
For orders Below €50 to Door delivery €2.50 extra of free to ACS
For orders below €20 to Door delivery €2.50 and €1.50 to ACS
Delivery time for Cyprus 1-2 Working Days
For EU Delivery €19.90 5-7 Working Days
For the rest of the world €29.90 10-12 Working days
Important note: The delivery time may take longer during holidays.
Information on customs:
European citizens do not have to pay any customs since all of our products are shipped from Cyprus which is a member of the European Union.
Customs duty is charged to non-EU countries when the package reaches the destination country. If your package is delivered to a non-EU country, you will be required to pay customs and/or duties fees in order to collect your package.
Note that custom policies and import duties are different for each country. It is advisable to contact your country’s customs office before you proceed with purchasing from our store in order to be informed of all the amounts charged for purchasing the item of your choice.All products are shipped from Cyprus to Cyprus and the rest of the world with fast delivery Courier.
See shipping and delivery details below:
For Cyprus:
Free to Door Delivery Above €50
For orders Below €50 to Door delivery €2.50 extra of free to ACS
For orders below €20 to Door delivery €2.50 and €1.50 to ACS
Delivery time for Cyprus 1-2 Working Days
For EU Delivery €19.90 5-7 Working Days
For the rest of the world €29.90 10-12 Working days
Important note: The delivery time may take longer during holidays.
Information on customs:
European citizens do not have to pay any customs since all of our products are shipped from Cyprus which is a member of the European Union.
Customs duty is charged to non-EU countries when the package reaches the destination country. If your package is delivered to a non-EU country, you will be required to pay customs and/or duties fees in order to collect your package.
Note that custom policies and import duties are different for each country. It is advisable to contact your country’s customs office before you proceed with purchasing from our store in order to be informed of all the amounts charged for purchasing the item of your choice.Item | Price | Qty | Total | |
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