Vegetarian Acid-Resistant Capsules
Multi-Probiotic® 4 Billion capsules from Douglas Laboratories provide 4 billion CFUs of probiotic strains from the lactobacillus and bifidobacterium genera, mixed in a base of prebiotic fructooligosaccharides in each acid-resistant capsule. These special capsules bypass the stomach and breakdown in the small intestinal fluid to allow target release in the intestinal tract.
Each serving contains:
Multi-Strain Probiotic Blend - 4 Billion CFU
Containing:
Lactobacillus acidophilus (La-14) - 1.150 Billion CFU
Lactobacillus rhamnosus (Lr-32) - 1.150 Billion CFU
Bifidobacterium lactis (HN019) - 500 Million CFU
Lactococcus lactis (Ll-23) - 275 Million CFU
Bifidobacterium longum (Bl-05) - 275 Million CFU
Bifidobacterium bifidum (Bb-02) - 275 Million CFU
Streptococcus thermophilus (St-21) - 150 Million CFU
Lactobacillus gasseri (Lg-36) - 275 Million CFU
FOS (fructooligosaccharides) and Ulmus fulva (inner bark)
Other ingredients: Microcrystalline cellulose, capsule (hydroxypropyl
methylcellulose, pectin, glycerol, purified water)
Multi-Probiotic® is a registered mark of Nutraflora® Supplements, LLC, used with permission.
As a dietary supplement, adults take 1 capsule 1 to 3 times daily or as directed by your healthcare professional.
Oral supplements of live, beneficial intestinal micro-organisms for nutritional health and well-being are known as probiotics. Probiotic dietary lactobacilli colonize the intestinal tract, depending on the specific bacterium-tohost affinity. Bacteria are continually in competition for colonization space. The original bacterial colonies have an advantage over transient bacteria. Nevertheless, the composition of the intestinal microflora is dynamic and constantly changing.
If harmful microorganisms proliferate, the equilibrium is disturbed, and it becomes difficult even for indigenous bacteria to maintain their necessary territory to colonize the intestine. Antibiotics tend to kill off both beneficial and harmful bacteria, and thus may also disturb the normal, healthy balance of intestinal microorganisms. When potent probiotic supplements, such as Multi-Probiotic 4000, are supplied regularly, chances are greatly increased for establishing and maintaining a healthy population of beneficial intestinal microorganisms. Once established, a normal intestinal microflora rich in lactobacilli creates acidic conditions that are unfavorable for the settlement of pathogenic microorganisms.
Probiotics have been shown to exert a beneficial support through modification of the immune system host via the gut environment. Clinical trials also suggest that the exposure to microbes through the gastrointestinal tract powerfully shapes immune function. Lactobacillus rhamnosus is one of the most widely studied probiotics, noted and valued for its ability to survive in the harsh conditions of the digestive and urinary tracts. L. rhamnosus is extremely well tolerated by men and women with very rare side effects. Studies have shown that, taken regularly, L. rhamnosus can be an effective supplement in promoting and maintaining digestive tract health.
The ability for probiotic cultures to survive stomach acidity and pH has been in question. Bifidobacterium was studied in vitro to be extremely resistant to low pH and bile acids in the duodenum. L. acidophilus DDS-1TM incorporates proprietary cryoprotectant agents and stabilizers specifically designed to protect the organism and enhance stability. Clinical analysis of DDS-1 and bifidobacterium also shows increased binding to human intestinal walls and protective effects of intestinal colonization. Certain bacterial acids in the intestines produce secondary bile acids. One study indicated that L. acidophilus DDS-1decreased the potential for bacterial transformations of primary bile acid.
Prebiotics are carbohydrates that have short molecular chains. They function as non-digestible ingredients that can positively affect selected groups of beneficial intestinal microflora, such as lactobacillus. While probiotics merely add beneficial microflora, prebiotics affect the intestinal environment so that beneficial colonies of microflora can flourish. By aiding the beneficial microflora’s survival, pathogenic microflora can have a decreased chance of survival.