About Product
When little Miss Muffet sat on a tuffet eating her curds and WHEY, the spider that sat beside her asked, “Hey, Miss Muffett, did you hear about Z Natural Foods' grass-fed whey protein concentrate?
While many versions of whey proteins are on the market, we decided to take ours to the next level and give you something just a little bit better.
This fantastic addition to our functional whole-food product line is sure to satisfy your tastebuds and provide superior nourishment to the other whey proteins on the market.
Our mission is to provide customers with great-tasting, highly functional foods with limitless application in their most versatile form to support a healthy, vibrant lifestyle. So, we introduce Z Natural Foods’ Grass-Fed Whey Protein Concentrate.
- Beta-Lactoglobulin - 52%
- Alpha-Lactalbumin - 15%
- IgG - 9%
- Bovine Serum Albumin - 5.0%
- Immunoglobulin - 4.0%
- Lactoferrin - 1.2%
- Lactoperoxidase - <1.0%
- Glycomacropeptide - 5%
Allergens: Milk
This product is 100% pure and minimally processed, so the taste, smell, texture, and color may vary from batch to batch. Due to its nature and because it is not mixed with anything else or tends to clump when mixed with liquid, a blender is suggested. If clumping is a concern, please try our Ultra Whey Isolate, which has a small amount of non-GMO sunflower lecithin and will mix much easier.
Suggested Use: Mix 7 level tablespoons / 1 ounce (28 grams ) with 12 ounces of cold water, skim milk, or juice, and thoroughly mix in a blender or shaker. For best results, consume 1-2 servings daily, with one serving post-exercise. It can also be blended into your favorite smoothie.
Mixing suggestions for the best-tasting whey protein powder: To increase the flavor nutritional profile and make your whey protein concentrate the best-tasting protein powder, combined with our shredded organic coconut and banana flakes.
Miscellaneous Facts about our Whey Protein Concentrate
Ingredients: Whey Protein Concentrate
Other Names: Bovine Whey Protein Concentrate, Concentré de Protéine de Petit-Lait Bovin, Fraction de Lactosérum, Fraction de Petit-Lait, Isolat de Protéine de Lactosérum, Isolat de Protéine de Petit-Lait, Lactosérum de Lait de Chèvre, MBP, Milk Protein, Milk Protein Concentrate, Mineral Whey Concentrate, Proteínas del Suero de la Leche, Protéine de Lactosérum, Protéine de Lait, Protéine de Petit-Lait, Whey, Whey Fraction, Whey Peptides, Whey Concentrate, WPC.
Origin: Raised and processed in New Zealand. Packaged with care in Florida, USA
How to Maintain Optimum Freshness
- This product is packaged in airtight stand-up, resealable foil pouches for optimum freshness.
- Once opened, push the air out of the pouch before resealing it to preserve maximum potency.
- Keep your powder in a cool, dark, dry place.
This product is 100% natural and minimally processed:
Taste, smell, texture, and color vary from batch to batch. Go here to learn why our products may naturally vary.
The important protections we take to bring you safe and nutritious superfoods:
Please go here to discover the essential steps we take to deliver fresh, quality nutrition.
Bulk Quantities?
Need to order a large quantity of our products? We are happy to help! Please get in touch with our Bulk department to discuss the details.
* Product packaging, pictures, and origin may vary.
Sources & References
References:
1. Valerio A, D"'Antona G, Nisoli E. Branched-chain amino acids, mitochondrial biogenesis, and healthspan: an evolutionary perspective. Aging (Albany NY). 2011 May;3(5):464-78.
2. D"'Antona G, Ragni M, Cardile A, et al. Branched-chain amino acid supplementation promotes survival and supports cardiac and skeletal muscle mitochondrial biogenesis in middle-aged mice. Cell Metab. 2010 October;12(4):362-72.
3. Alvers AL, Fishwick LK, Wood MS, Hu D, Chung HS, Dunn WA, and Aris JP. Autophagy and amino acid homeostasis are required for chronological longevity in Saccharomyces cerevisiae. Aging Cell. 2009;8:353-69.
4. Fuchs S, Bundy JG, Davies SK, Viney JM, Swire JS, and Leroi AM. A metabolic signature of long life in Caenorhabditis elegans. BMC Biol. 2010;8:14.
5. Yalçin AS. Emerging therapeutic potential of whey proteins and peptides. Curr Pharm Des. 2006;12(13):1637-43.
6. Krissansen GW. Emerging health properties of whey proteins and their clinical implications. J Am Coll Nutr. Dec. 2007;26(6):713S-23S.
7. Vegarud GE, Langsrud T, Svenning C. Mineral-binding milk proteins and peptides; occurrence, biochemical and technological characteristics. Br J Nutr. 2000;84(Suppl 1):S91-8.
8. Available at: http://www.innovatewithdairy.com/SiteCollectionDocuments/Mono_Immunity_0304.pdf. Accessed June 12, 2013.
9. Kent KD, Harper WJ, Bomser JA. Effect of whey protein isolate on intracellular glutathione and oxidant-induced cell death in human prostate epithelial cells. Toxicol In Vitro. 2003 Feb;17(1):27-33.
10. Bounous G, Gervais F, Amer V, Batist G, Gold P. The influence of dietary whey protein on tissue glutathione and the diseases of aging. Clin Invest Med. 1989;12:343-9.
11. Townsend DM, Tew KD, Tapiero H. The importance of glutathione in human disease. Biomed Pharmacother. 2003 May-Jun;57(3-4):145-55.
12. Wu G, Fang YZ, Yang S, Lupton JR, Turner ND. Glutathione metabolism and its implications for health. J Nutr. 2004 Mar;134(3):489-92.
13. Katsanos CS, Chinkes DL, Paddon-Jones D, Zhang XJ, Aarsland A, Wolfe RR. Whey protein ingestion in elderly persons results in greater muscle protein accrual than ingestion of its constituent essential amino acid content. Nutr Res. 2008 Oct;28(10):651-8.
14. Bounous G, Batist G, Gold P. Immunoenhancing property of dietary whey protein in mice: role of glutathione. Clin Invest Med. 1989 Jun;12(3):154-61.
15. Currais A, Maher P. Functional consequences of age-dependent changes in glutathione status in the brain. Antioxid Redox Signal. 2013 Feb 5. [Epub ahead of print]
16. Shertzer HG, Woods SE, Krishan M, Genter MB, Pearson KJ. Dietary whey protein lowers the risk for metabolic disease in mice fed a high-fat diet. J Nutr. 2011 Apr 1;141(4):582-7.
17. Paddon-Jones D, Short KR, Campbell WW, Volpi E, Wolfe RR. Role of dietary protein in the sarcopenia of aging. Am J Clin Nutr. 2008 May;87(5):1562S-6S.
18. Pepe G, Tenore GC, Mastrocinque R, Stusio P, Campiglia P. Potential anticarcinogenic peptides from bovine milk. J Amino Acids. 2013;2013:939804.
19. Markus CR, Olivier B, de Haan EH. Whey protein rich in alpha-lactalbumin increases the ratio of plasma tryptophan to the sum of the other large neutral amino acids and improves cognitive performance in stress-vulnerable subjects. Am J Clin Nutr. 2002 Jun;75(6):1051-6.
20. Visvanathan R, and Chapman IM. Undernutrition and anorexia in the older person. Gastroenterol Clin North Am. 2009;38:393-409.
21. Ahmed T, and Haboubi N. Assessment and management of nutrition in older people and its importance to health. Clin Interv Aging. 2010;5:207-16.
22. Chapman IM. Nutritional disorders in the elderly. Med Clin North Am. 2006;90:887-907.
23. Ahmed N, Mandel R, and Fain MJ. Frailty: An emerging geriatric syndrome. Am J Med. 2007;120:748-53.
24. Heilbronn LK, de Jonge L, Frisard MI, et al. Effect of 6-month calorie restriction on biomarkers of longevity, metabolic adaptation, and oxidative stress in overweight individuals: A randomized controlled trial. JAMA. 2006;295:1539-48.
25. Ingram DK, Roth GS. Glycolytic inhibition as a strategy for developing calorie restriction mimetics. Exp Gerontol. 2011;46:148-54.
26. Ingram DK, Zhu M, Mamczarz J, et al. Calorie restriction mimetics: an emerging research field. Aging Cell. 2006 Apr;5(2):97-108.
27. Solerte SB, Gazzaruso C, Bonacasa R, et al. Nutritional supplements with oral amino acid mixtures increases whole-body lean mass and insulin sensitivity in elderly subjects with sarcopenia. Am J Cardiol. 2008;101:69E-77E.
28. Available at: http://www.encognitive.com/files/Potential%20benefits%20of%20improved% 20protein%20intake%20in%20older%20people.pdf. Accessed June 12, 2013.
29. Nair KS, Short KR. Hormonal and signaling role of branched-chain amino acids. J Nutr. 2005 Jun;135(6 Suppl):1547S-52S.
30. Available at: http://www.cdc.gov/nchs/fastats/lifexpec.htm. Accessed June 12, 2013.
31. Lan-Pidhainy X, Wolever TM. The hypoglycemic effect of fat and protein is not attenuated by insulin resistance. Am J Clin Nutr. 2010 Jan;91(1):98-105.
32. Jakubowicz D, Froy O. Biochemical and metabolic mechanisms by which dietary whey protein may combat obesity and type 2 diabetes. J Nutr Biochem. 2013 Jan;24(1):1-5.
33. Hall WL, Millward DJ, Long SJ, Morgan LM. Casein and whey exert different effects on plasma amino acid profiles, gastrointestinal hormone secretion and appetite. Br J Nutr. 2003;89:239-48.
34. Pal S, Ellis V. The acute effects of four protein meals on insulin, glucose, appetite and energy intake in lean men. Br J Nutr. 2010;104:1241-8.
35. Veldhorst MA, Nieuwenhuizen AG, Hochstenbach-Waelen A, et al. Dose-dependent satiating effect of whey relative to casein or soy. Physiol Behav. 2009;96:675-82.
36. Bowen J, Noakes M, Trenerry C, Clifton PM. Energy intake, ghrelin, and cholecystokinin after different carbohydrate and protein preloads in overweight men. J Clin Endocrinol Metab. 2006;91:1477-83.
37. Baer DJ, Stote KS, Paul DR, Harris GK, Rumpler WV, Clevidence BA. Whey protein but not soy protein supplementation alters body weight and composition in free-living overweight and obese adults. J Nutr. 2011;141:1489-94.
38. Dangin M, Boirie Y, Guillet C, Beaufrere B. Influence of the protein digestion rate on protein turnover in young and elderly subjects. J Nutr. 2002 Oct;132(10):3228S-33S.
39. Available at: http://www.usdec.org/files/PDFs/2008Monographs/WeighWeightManagement_English.pdf . Accessed June 13, 2013.
40. Doherty TJ. Invited review: Aging and sarcopenia. J Appl Physiol. 2003. 95(4):1717-27.
41. Graf S, Egert S, Heer M. Effects of whey protein supplements on metabolism: evidence from human intervention studies. Curr Opin Clin Nutr Metab Care. 2011 Nov;14(6):569-80.
42. Paddon-Jones D, Sheffield-Moore M, Katsanos CS, Zhang XJ, Wolfe RR. Differential stimulation of muscle protein synthesis in elderly humans following isocaloric ingestion of amino acids or whey protein. Exp Gerontol. 2006 Feb;41(2):215-9.
43. McKiernan SH, Colman RJ, Lopez M, et al. Caloric restriction delays aging-induced cellular phenotypes in rhesus monkey skeletal muscle. Exp Gerontol. 2011 January;46(1):23-9.
44. Paddon-Jones D, Short KR, Campbell WW, Volpi E, Wolfe RR. Role of dietary protein in the sarcopenia of aging. Am J Clin Nutr. 2008 May;87(5):1562S-6S.
45. Koopman R, Verdijk L, Manders RJ, et al. Co-ingestion of protein and leucine stimulates muscle protein synthesis rates to the same extent in young and elderly lean men. Am J Clin Nutr. 2006 Sep;84(3):623-32.
46. Dardevet D, Sornet C, Balage M, Grizard J. Stimulation of in vitro rat muscle protein synthesis by leucine decreases with age. J Nutr. 2000 Nov;130(11):2630-5.
47. Katsanos CS, Kobayashi H, Sheffield-Moore M, Aarsland A, Wolfe RR. A high proportion of leucine is required for optimal stimulation of the rate of muscle protein synthesis by essential amino acids in the elderly. Am J Physiol Endocrinol Metab. 2006 Aug;291(2):E381-7.
48. Fujita S, Dreyer HC, Drummond MJ, et al. Nutrient signalling in the regulation of human muscle protein synthesis. J Physiol. 2007 Jul 15;582(Pt 2):813-23.
49. Dreyer HC, Drummond MJ, Pennings B, et al. Leucine-enriched essential amino acid and carbohydrate ingestion following resistance exercise enhances mTOR signaling and protein synthesis in human muscle. Am J Physiol Endocrinol Metab. 2008 Feb;294(2):E392-400.
50. Fujita S, Volpi E. Amino acids and muscle loss with aging. J Nutr. 2006 Jan;136(1 Suppl):277S-80S.
51. Morley JE, Thomas DR, Wilson MM. Cachexia: pathophysiology and clinical relevance. Am J Clin Nutr. 2006 Apr;83(4):735-43.
52. Hack V, Schmid D, Breitkreutz R, et al. Cystine levels, cystine flux, and protein catabolism in cancer cachexia, HIV/SIV infection, and senescence. FASEB J. 1997 Jan;11(1):84-92.
53. Dillon EL, Basra G, Horstman AM, et al. Cancer cachexia and anabolic interventions: a case report. J Cachexia Sarcopenia Muscle. 2012 Dec;3(4):253-63.
54. Bounous G, Baruchel S, Falutz J, Gold P. Whey proteins as a food supplement in HIV-seropositive individuals. Clin Invest Med. 1993 Jun;16(3):204-9.
55. Aoe S, Toba Y, Yamamura J, et al. Controlled trial of the effects of milk basic protein (MBP) supplementation on bone metabolism in healthy adult women. Biosci Biotechnol Biochem. 2001;65:913-8.
56. Parodi PW. A role for milk proteins and their peptides in cancer prevention. Curr Pharm Des. 2007;13(8):813-28.
57. McIntosh GH, Regester GO, Le Leu RK, Royle PJ, Smithers GW. Dairy proteins protect against dimethylhydrazine-induced intestinal cancers in rats. J Nutr. 1995 Apr;125(4):809-16.
58. Tsuda H, Sekine K, Ushida Y, et al. Milk and dairy products in cancer prevention: focus on bovine lactoferrin. Mutat Res. 2000 Apr;462(2-3):227-33.
59. Available at: http://www.cdc.gov/features/vitalsigns/cardiovasculardisease/. Accessed June 14, 2013.
60. Available at: http://usdec.files.cms-plus.com/Publications/CardioHealth_English.pdf. Accessed June 14, 2013.
61. Zhang X, Beynen AC. Lowering effect of dietary milk-whey protein v. casein on plasma and liver cholesterol concentrations in rats. Br J Nutr. 1993 Jul;70(1):139-46.
62. Meltzer CC, Smith G, DeKosky ST, et al. Serotonin in aging, late-life depression, and Alzheimer's disease: the emerging role of functional imaging. Neuropsychopharmacology. 1998 Jun;18(6):407-30.
63. Meltzer CC, Price JC, Mathis CA, et al. Serotonin 1A receptor binding and treatment response in late-life depression. Neuropsychopharmacology. 2004 Dec;29(12):2258-65.
64. Fernstrom JD, Wurtman RJ. Brain serotonin content: physiological dependence on plasma tryptophan levels. Science. 1971;173:149-52.
65. Fernstrom JD, Wurtman RJ. Brain serotonin content: physiological regulation by plasma neutral amino acids. Science. 1972;178:414-6.
66. Markus CR, Olivier B, Panhuysen GE, et al. The bovine protein alpha-lactalbumin increases the plasma ratio of tryptophan to the other large neutral amino acids, and in vulnerable subjects raises brain serotonin activity, reduces cortisol concentration, and improves mood under stress. Am J Clin Nutr. 2000 Jun;71(6): 1536-44.
67. Markus CR, Olivier B, de Haan EH. Whey protein rich in alpha-lactalbumin increases the ratio of plasma tryptophan to the sum of the other large neutral amino acids and improves cognitive performance in stress-vulnerable subjects. Am J Clin Nutr. 2002 Jun;75(6):1051-6.
68. Camfield DA, Owen L, Scholey AB, Pipingas A, Stough C. Dairy constituents and neurocognitive health in ageing. Br J Nutr. 2011 Jul;106(2):159-74.
69. Chatterton DE, Nguyen DN, Bering SB, Sangild PT. Anti-inflammatory mechanisms of bioactive milk proteins in the intestine of newborns. Int J Biochem Cell Biol. 2013 May 6.
70. Rahman I, MacNee W. Oxidative stress and regulation of glutathione in lung inflammation. Eur Respir J. 2000 Sep;16(3):534-54.
71. Buffinton GD, Doe WF. Depleted mucosal antioxidant defences in inflammatory bowel disease. Free Radic Biol Med. 1995;19:911-8.
72. Duggan C, Stark AR, Auestad N, et al. S. Collier. 2004. Glutamine supplementation in infants with gastrointestinal disease: a randomized, placebo-controlled pilot trial. Nutrition.2004;20:752-6.
73. Walzem RL, Dillard CJ, German JB. Whey components: millennia of evolution create functionalities for mammalian nutrition: What we know and what we may be overlooking. Crit Rev Food Sci Nutr. 2002;42:353-75.
74. Fioramonti J, Theodorou V, Bueno L. Probiotics: what are they? What are their effects on gut physiology? Best Pract Res Clin Gastroenterol. 2003;17:711-24.
75. Teitelbaum JE, Walker WA. Nutritional impact of pre- and probiotics as protective gastrointestinal organisms. Annu Rev Nutr 2002;22:107-38.
76. Matsumoto H, Shimokawa Y, Ushida Y, Toida T, Hayasawa H. New biological function of bovine alpha-lactalbumin: Protective effect against ethanol- and stress-induced gastric mucosal injury in rats. Biosci Biotechnol Biochem. 2001 May;65(5):1104-11.
77. Cross M L, Gill HS. Immunomodulatory properties of milk. Brit J Nutr. 2000;84:S81-9.
78. Clare DA, Swaisgood HE. Bioactive milk peptides: A prospectus. J Dairy Sci. 2000;83:1187-95.
79. Low PPL, Rutherford KJ, Gill HS, Cross ML. Effect of dietary whey protein concentrate on primary and secondary antibody responses in immunized BALB/C mice. Int Immunopharmacol. 2003;3:393-401.
80. Bounous G, Kongshavn PA, Gold P. The immunoenhancing property of dietary whey protein concentrate. Clin Invest Med. 1988 August;11(4):271-8.
81. Bounous G, Papenburg R, Kongshavn PA, Gold P, Fleiszer D. Dietary whey protein inhibits the development of dimethylhydrazine induced malignancy. Clin Invest Med. 1988;11(3)213-7.
82. Ford JT, Wong CW, Colditz IG. Effects of dietary protein types on immune responses and levels of infection with Eimeria vermiformis in mice. Immunol Cell Biol 2001;79(1):23-8.
83. Bounous G, Kongshavn PA. Differential effect of dietary protein type on the B-cell and T-cell immune responses in mice. J Nutr. 1985;115(11):1403-8.
84. McCay CM, Crowel MF. Prolonging the life span. Scientific Monthly. 1934 Nov;39(5):405-14.
85. McCay CM, Crowell MF, Maynard LA. The effect of retarded growth upon the length of life span and upon the ultimate body size. Nutrition. 1935;5:155-71.
86. Ward PP, Paz E, Conneely OM. Multifunctional roles of lactoferrin: a critical overview. Cell Molecul Life Sci. 2005;62,2540-8.
87. Wakabayashi H, Yamauchi K, Takase M. Inhibitory effects of bovine lactoferrin and lactoferricin B on Enterobacter sakazakii. Biocontrol Sci. 2008;13:29-32.
88. Liepke C, Adermann K, Raida M, et al. Human milk provides peptides highly stimulating the growth of bifidobacteria. Eur J Biochem. 2002;269:712-8.
89. Okazaki Y, Kono I, Kuriki TJ, et al. Bovine lactoferrin ameliorates ferric nitrilotriacetate-induced renal oxidative damage in rats. Clin Biochem Nutr. 2012 Sep;51(2):84-90.
90. Raghuveer TS, McGuire EM, Martin SM, et al. Lactoferrin in the preterm infants"' diet attenuates iron-induced oxidation products. Pediatr Res. 2002;52:964-72.
91. Shoji H, Oguchi S, Shinohara K, et al. Effects of iron-unsaturated human lactoferrin on hydrogen peroxide-induced oxidative damage in intestinal epithelial cells. Pediatr Res. 2007;61:89-92.
92. Iigo M, Shimamura M, Matsuda E, et al. Orally administered bovine lactoferrin induces caspase-1 and interleukin-18 in the mouse intestinal mucosa: a possible explanation for inhibition of carcinogenesis and metastasis. Cytokine. 2004;25:36-44.
93. Oguchi S, Walker WA, Sanderson IR. Iron saturation alters the effect of lactoferrin on the proliferation and differentiation of human enterocytes (Caco-2 cells). Biol Neonate. 1995;67:330-9.
94. Spadaro M, Caorsi C, Ceruti P, et al. Lactoferrin, a major defense protein of innate immunity, is a novel maturation factor for human dendritic cells. FASEB J. 2008;22:2747-57.
95. Ashida K, Sasaki H, Suzuki YA, Lonnerdal B. Cellular internalization of lactoferrin in intestinal epithelial cells. Biometals. 2004;17:311-5.
96. Garre C, Bianchi-Scarra G, Sirito M, et al. Lactoferrin binding sites and nuclear localization in K562(S) cells. J Cell Physiol. 1992;153:477-82.
97. Tung YT, Chen HL, Yen CC, et al. Bovine lactoferrin inhibits lung cancer growth through suppression of both inflammation and expression of vascular endothelial growth factor. J Dairy Sci. 2013 Apr;96(4):2095-106.
98. Ono T, Murakoshi M, Suzuki N, et al. Potent anti-obesity effect of enteric-coated lactoferrin: decrease in visceral fat accumulation in Japanese men and women with abdominal obesity after 8-week administration of enteric-coated lactoferrin tablets. Br J Nutr. 2010 Dec;104(11):1688-95.
99. Maher P. Modulation of multiple pathways involved in the maintenance of neuronal function during aging by fisetin. Genes Nutr. 2009 Sep 10.
100. Sadruddin S, Arora R. Resveratrol: biologic and therapeutic implications. J Cardiometab Syndr. 2009 Spring;4(2):102-6.
101. Joseph JA, Fisher DR, Cheng V, Rimando AM, Shukitt-Hale B. Cellular and behavioral effects of stilbene resveratrol analogues: implications for reducing the deleterious effects of aging. J Agric Food Chem. 2008 Nov 26;56(22):10544-51.
102. Salas A, Subirada F, Perez-Enciso M, et al. Plant polyphenol intake alters gene expression in canine leukocytes. J Nutrigenet Nutrigenomics. 2009;2(1):43-52.
103. Ruiz PA, Braune A, Holzlwimmer G, Quintanilla-Fend L, Haller D. Quercetin inhibits TNF-induced NF-kappaB transcription factor recruitment to proinflammatory gene promoters in murine intestinal epithelial cells. J Nutr. 2007 May;137(5):1208-15.
104. Widlansky ME, Duffy SJ, Hamburg NM, et al. Effects of black tea consumption on plasma catechins and markers of oxidative stress and inflammation in patients with coronary artery disease. Free Radic Biol Med. 2005 Feb 15;38(4):499-506.
105. http://www.naturalnews.com/045202_whey_protein_obesity_diabetes_prevention.html
106. http://www.acs.org/content/acs/en/pressroom/presspacs/2014/acs-presspac-april-30-2014/whey-beneficially-affects-diabetes-and-cardiovascular-disease-risk-factors-in-obese-adults.html
107. http://www.diabetes.co.uk/news/2014/may/whey-protein-linked-to-lower-diabetes-risk-in-obese-adults-94407038.html
108. http://www.sciencedaily.com/releases/2013/10/131010091557.htm
109. http://www.sciencedaily.com/releases/2010/12/101208125624.htm
* Reviews & Success Stories Disclaimer
Product reviews solely reflect the views and opinions expressed by the contributors and not those of Z Natural Foods. Z Natural Foods does not verify or endorse any claims made in these reviews. Statements have not been evaluated by the FDA and are not intended to diagnose, treat, cure, or prevent any disease or health condition.REFERRAL PROGRAM
Share your personal link to your friends and welcome them with rewards. Claim yours when they make their first purchase.
GIVE
$10 off discount
GET
$10 off discount
Other products in the same category
Whole Milk Powder
$12.99
Hemp Protein - Raw Organic
$15.99
Silk Brown Rice Protein Powder - Organic
$16.99