Since 1929, Standard Process has advanced health through high-quality, whole food based nutritional supplements.  We’re trusted partners with health care professionals who rely on our products to holistically address the body and care for patients from all walks of life. 

This year we are introducing a new Children’s Products: the Next General of Changing Lives.  SP Children’s™ Immune is a chewable supplement for kids ages 4 and older that delivers key nutrients for proper immune system functioning and development.

The first product released: Children’s Immune Chewable:

  • Supports the Immune System
  • Chewable Supplement
  • Contains prebiotic 2′-FL and bovine colostrum
  • Draws flavor from organic ingredients: elderberry and whole strawberry
  • Includes organic beet root from the Standard Process certified organic farm.
  • Excellent source of vitamin D, zinc, and antioxidant vitamin C
  • Gluten-free and non-soy

Item: 16000 – 60 Wafers

Price = $34.10

Suggested Use: For children ages 4 and older, chew two wafers per day.

The immune system is responsible for keeping out foreign substances, protecting the body, and helping maintain wellness through a person’s lifespan. When nutrition is poor, a healthy immune response can be compromised.1 On the other hand, consuming adequate amounts of essential nutrients is crucial to the immune response’s function and development.1  Fortunately, SP Children’s™ Immune is designed for everyday support to encourage a lifetime of wellness.

Vitamin C, Vitamin D, and Zinc: Where Immune Systems Get Their Strength 

Vitamin C, vitamin D, and zinc are vitally important for the immune system throughout all life stages, including childhood.1 SP Children’s™ Immune is an excellent source of all three.

  • Children need Vitamin C for a functioning immune system2
  • Vitamin D is a regulator of immune function1
  • Zinc is an essential mineral for immune system function3

Contains Prebiotic 2’-FL and Colostrum

The largest immune organ in the body is the GI tract. That’s why SP Children’s™ Immune contains important ingredients that may support the gut and may contribute to a healthy immune system response*:

  • 2’-FL, a prebiotic first identified in human milk, is able to reach the lower GI tract4-9 where it is broken down to feed the growth of beneficial microbes6-11*^
  • Bovine colostrum is sourced from a whole food (cow’s milk) and supports a normal healthy immune response in the GI tract12

 ^To date, shown in multiple animal studies, infants, and one adult human study.

Made Safe and Effective for Children

In a taste and tolerance study, SP Children’s™ Immune was considered safe and well-tolerated by children between 4 to 17 years old. No indications of adverse effects were observed.

Like all Standard Process products, SP Children’s™ Immune is subject to a rigorous quality control program. Our scientists run as many as 2,000 tests every week on raw materials, in-process product batches, and finished products so that we can be sure what is in the bottle reflects what is on the label.



Need to place an order?  You can now order this product on our authorized online retail website and have your orders delivered directly from the farm to your home!

https://drzgraggen.standardprocess.com/products/sp-childrens-immune

Cheers,

Cited References: 

1. Calder PC. Proc Nutr Soc. 2013 Aug;72(3):299-309. doi: 10.1017/ S0029665113001286.

2. Maggini S, Wenzlaff S, Hornig D. Journal of International Medical Research. 2010;38(2):386-414. doi: 10.1177/147323001003800203.

3. Shankar AH, Prasad AS. The American journal of clinical nutrition. 1998;68(2 Suppl):447s-63s. Epub 1998/08/13. doi: 10.1093/ajcn/68.2.447S. PubMed PMID: 9701160.

4. Milani C, Duranti S, Bottacini F, Casey E, Turroni F, Mahony J, et al. MMBR. 2017;81(4):e00036-17. doi: 10.1128/MMBR.00036-17.

5. Underwood MA, Gaerlan S, De Leoz MLA, Dimapasoc L, Kalanetra KM, Lemay DG, et al. 2015;78(6):670.

6. Elison E, Vigsnaes LK, Rindom Krogsgaard L, Rasmussen J, Sorensen N, McConnell B, et al. 2016;116(8):1356-68. Epub 2016/10/22. doi: 10.1017/ S0007114516003354.

7. Iribarren C, Törnblom H, Aziz I, Magnusson MK, Sundin J, Vigsnæs LK, et al. 2019;156(6):S-242. doi: 10.1016/S0016-5085(19)37409-8.

8. Bai Y, Tao J, Zhou J, Fan Q, Liu M, Hu Y, et al. 2018;3(6):e00206-18. doi: 10.1128/ mSystems.00206-18.

9. Sela DA, Mills DA. 2010;18(7):298-307. Epub 04/19. doi: 10.1016/j. tim.2010.03.008.

10. Matsuki T, Yahagi K, Mori H, Matsumoto H, Hara T, Tajima S, et al. 2016;7:11939-. doi: 10.1038/ncomms11939.

11. Asakuma S, Hatakeyama E, Urashima T, Yoshida E, Katayama T, Yamamoto K, et al. J Biol Chem. 2011;286(40):34583-92. Epub 08/09. doi: 10.1074/jbc. M111.248138.

12. Lefranc M-P, Lefranc G. 2001. Academic Press; 2001.