|
|
 |
|
Sign
up for the NDC Update for the latest dairy nutrition news, fast facts,
free tools for patients, expert nutrition advice and information on updated
dairy nutrition resources.
|
|
 |
|
|
|
|
 |
|
Educate your patients on the importance of 3-A-Day of Dairy: Here's
a great
tool (PDF: 618k) to show families how to get their 3-A-Day of Dairy
every day for stronger bones.
Developed in conjunction with The American Academy of Family
Physicians, The American Academy of Pediatrics, The American Dietetic
Association, and The National Medical Association.
|
|
 |
|
|
|
Dairy Council Digest Archives
Probiotics: Considerations for Human Health
Potential Health Benefits of Probiotics
Research indicates that probiotics confer a variety of health benefits. However, when drawing conclusions regarding this research, it is important to recognize that different strains, species, and genera of bacteria may have unique effects. In vitro , experimental animal, and human studies of probiotics have used different bacterial strains and combinations of strains at different doses (3). Because human health issues are very difficult to study directly, different end points (e.g., blood cholesterol as an indicator of heart disease risk) are employed. Also, the mechanisms by which probiotics exert their effects are largely unknown (3,11,18,23). For the above reasons, generalizations about the health effects of probiotics can be misleading (2). Nevertheless, some promising health benefits (e.g., alleviation of lactose intolerance symptoms, anti-diarrheal effects, and immune stimulation) are attributed to specific strains of probiotics consumed at adequate levels (10,22,25).
Alleviation of Lactose Intolerance Symptoms. Individuals with low levels of the intestinal enzyme lactase (i.e., lactose maldigesters) have a limited ability to digest lactose (milk sugar), which can result in gastrointestinal symptoms or lactose intolerance (31). Studies demonstrate that intake of yogurt and some probiotics can improve lactose digestion and alleviate symptoms of intolerance (3,5,7,12,18,21,31).
Lactose maldigesters generally tolerate lactose from yogurt with live, active cultures better than from milk mainly due to the digestion of lactose in the gut lumen by lactase contained in yogurt starter cultures and released in the small bowel where these bacteria are lysed by bile acids (3,12,21,31). This benefit is substantially reduced if yogurt is heated after inoculation, which inactivates bacteria and its lactase enzyme (7,12,31). Compared to milk, yogurt delays gastric emptying and slows intestinal transit which prolongs the action of lactase in the small intestine and decreases the osmotic load of the lactose (5,31). Yogurt and probiotics may also improve tolerance to lactose by their positive effects on intestinal function and colonic microflora and/or by reducing individuals’ sensitivity to symptoms (31).
Consuming yogurt, particularly with live, active cultures, allows many lactose maldigesters to comfortably include dairy products and their accompanying nutrients in their diet.
A variety of probiotic bacteria such as L. acidophilus and bifidobacteria improve digestion of lactose in lactose maldigesters, although the effects are less consistent than those achieved for yogurt with live, active cultures (3,31). The finding that some fermented dairy products formulated exclusively with probiotic bacteria, such as Sweet Acidophilus® milk, are ineffective in improving tolerance to lactose may be explained by the low level of probiotics in the product (3).
Anti-diarrheal Effects. An extensive body of research supports a beneficial role for probiotics in the prevention and treatment of a variety of diarrheal illnesses, such as acute diarrhea caused by rotavirus infections, antibiotic-associated diarrhea, and travelers’ diarrhea (6,11,12,17,19-21,32). Specific strains of lactobacilli, such as Lactobacillus rhamnosus GG and a combination of Lactobacillus rhamnosus 190702 and Lactobacillus reuteri DSM 12246, as well as fermented dairy foods such as yogurt, have been shown to reduce the severity and duration of acute diarrhea caused by rotavirus infections in infants and young children (32-36). According to a meta-analysis of randomized controlled studies, therapy using lactobacilli offers a safe and effective means to treat acute infectious diarrheal diseases in children (37).
A common side-effect of antibiotic therapy is diarrhea, usually caused by the growth of pathogenic bacteria, specifically Clostridium difficile (4). Several placebo-controlled clinical trials have demonstrated that L. rhamnosus GG, L. acidophilus LA1, and Saccharomyces boulardi , as well as yogurt, reduce the incidence of or lessen the severity of antibiotic-associated diarrhea (32,38-41). Two meta-analyses of placebo-controlled clinical trials support a strong benefit of probiotics in reducing the risk of antibiotic-associated diarrhea (40,41). Probiotics such as L. rhamnosus GG or specific mixtures of probiotics (e.g., L. acidophilus, L. bulgaricus, B. bifidum, and S. thermophilus ) have been used to reduce the incidence of travelers’ diarrhea among adults (3,4). However, the role of probiotics in the prevention of travelers’ diarrhea varies with the probiotic strain used and the travel destination.
Protection Against Infections. Probiotics may help prevent or treat infections such as postoperative infections (11), respiratory infections (42,43), and the growth of Helicobacter pylori , a bacterial pathogen responsible for type B gastritis, peptic ulcers, and perhaps stomach cancer (44-48). A 7-month randomized, double-blind, placebo controlled study of more than 570 healthy children aged 1 to 6 years in day care centers found that intake of a probiotic milk containing L. rhamnosus GG reduced the number and severity of respiratory infections and the need for antibiotics (42). Regular intake of probiotics (i.e., a fermented milk drink containing a mixture of L. rhamnosus GG, Bifidobacterium, L. acidophilus, and S. thermophilus ) has been demonstrated to reduce potentially pathogenic bacteria in the upper respiratory tract of humans (43).
Some in vitro , experimental animal, and limited human studies indicate that probiotics, especially lactic acid bacteria, may inhibit the growth of H. pylori (4-7,12,18,44-48). Probiotics such as Lactobacillus casei strain Shirota , bifidobacteria, and Lactobacillus salivarius have been shown to inhibit the growth and/or colonization of H. pylori in in vitro and experimental animal studies (4,5,46,48). According to an in vitro study, yogurt containing Bifidobacterium lactis Bb12 reduced the growth of H. pylori , whereas L. acidophilus La5 did not (47). When 59 adults with H. pylori infection consumed a mixture of these two probiotics in yogurt twice daily after a meal for 6 weeks, H. pylori was suppressed, but only when the probiotic yogurt was consumed regularly, whereas H. pylori continued to increase in the subjects consuming a placebo (47). Other human studies show that intake of fermented milks containing Lactobacillus johnsonii with or without antibiotics suppresses H. pylori infection or diminishes the severity and activity of gastric inflammation caused by H. pylori (44,45). Although these preliminary findings in humans indicate that some specific probiotic strains may help control H. pylori infection, there is no evidence that they can kill this pathogen in vivo (7).
Reduced Risk of Colon Cancer. Some evidence, primarily from in vitro and experimental animal studies, indicates that probiotics may have the potential to reduce colon cancer risk (3-5,29a,49-53). In experimental animals, intake of yogurt and specific probiotic cultures has been shown to reduce the development of precancerous lesions (aberrant crypts) and chemically-induced tumors, although the findings appear to be both species- and strain-dependent (50,52). Epidemiological studies in humans link intake of yogurt or other fermented milk products to decreased cancer risk, however, the findings are inconsistent (3,7,12,49). Although human intervention studies demonstrate the ability of specific probiotics to inhibit biomarkers of colon cancer risk, such as bacterial enzyme activities, there is no direct evidence that probiotics reduce colon cancer incidence in humans (5). Based on a recent review of the evidence, researchers conclude that the protective role of milks fermented with probiotic cultures in colon cancer risk reduction is promising, but as yet inconclusive (49).
Immune Enhancement. Findings from experimental animal and mostly short term human studies indicate that yogurt and probiotics such as lactobacilli and bifidobacteria stimulate certain cellular and antibody functions of the immune system, which in turn may increase resistance to immune-related diseases (e.g., infections, gastrointestinal disorders, cancer, allergies) (29b,54-58). Secretory immunoglobulin A, which helps to protect against microbial antigens at the intestinal mucosal surface, has been shown to be increased in mice fed L. acidophilus, L. casei or yogurt, and in humans consuming fermented milk containing L. acidophilus (4,7,56). In mice fed fermented milk with L. casei, L. acidophilus , or both, macrophages (i.e., one of the first lines of nonspecific defense against bacterial invasion) increased (7). Consumption of yogurt or lactic acid bacteria (e.g., L. casei, L. rhamnosus GG, and other strains) also modulates the production of several cytokines, which have diverse roles in regulating immune functions (7,56).
Emerging scientific evidence indicates that specific probiotics may reduce the risk of certain diarrheal diseases, infections, and colon cancer; enhance immune function; and alleviate symptoms of inflammatory disorders, among other benefits.
Studies in older adults have shown that consumption of milk supplemented with a relatively low dose of the probiotic B. lactis HNO19 for 3 or 6 weeks enhances some aspects of cellular immunity, including total, helper, and activated T-cells, leukocyte phagocytosis, and tumor-killing cells (59,60). The greatest improvements in B. lactis -mediated immunoenhancement occurred in individuals with poorly functioning immune systems (59,60).
Many probiotic effects are mediated by balancing pro-inflammatory and anti-inflammatory cytokines (57). According to a recent study in 10 healthy adults, cellular immune response to intestinal microorganisms was enhanced following intake of L. rhamnosus GG for 5 weeks (61). This probiotic increased the response of peripheral T-lymphocytes to intestinal bacteria and enhanced an anti-inflammatory response by increasing the secretion of suppressive cytokines and decreasing the secretion of pro-inflammatory cytokines (61). Genetically engineering probiotic bacteria with desired functions such as the production of anti-inflammatory cytokines is an active area of research (62).
Anti-inflammatory Effects. Because probiotics can influence the intestinal flora, they may have beneficial effects for patients with inflammatory bowel disease (IBD), which includes ulcerative colitis, Crohn’s disease, and pouchitis (1,5-7,11,29c). Several animal studies and a few clinical trials in humans suggest that specific probiotic bacteria may alleviate or reduce symptoms of IBD (1,5,6,11,18,63,64). Intake of fermented milk for one year helped patients with ulcerative colitis maintain remission and had possible preventive effects, according to a randomized clinical trial in Japan (65). Other studies indicate that a combined probiotic preparation reduces relapses in patients with IBD (5,6,29c,66). Intake of a combination of eight probiotic strains was effective in maintaining remission in patients with pouchitis (66).
Reduced Symptoms of Irritable Bowel Syndrome. Probiotics may reduce symptoms of irritable bowel syndrome (IBS) (4,6,67). A randomized controlled clinical trial in 25 patients with diarrhea-predominant IBS showed that intake of a probiotic formula twice daily for 8 weeks reduced abdominal bloating (67).
Prevention of Allergic Reactions. Probiotics may help prevent allergic reactions in individuals at high risk of allergies, such as food allergies (29d,68-71). Results of a randomized double-blind, placebo-controlled study demonstrated that administration of L. rhamnosus GG to pregnant mothers 2 to 4 weeks prior to delivery and to their newborn babies through 6 months of age led to a 50% decrease in the infants’ incidence of recurring atopic eczema (i.e., an indicator of food allergy later in childhood) (69). A follow-up study found that this preventive effect of L. rhamnosus GG extended until 4 years of age (70).
Other Potential Health Benefits. Some experimental animal and human investigations suggest that probiotics may reduce the risk of heart disease by their beneficial effects on blood lipid levels (29e,72-76) and blood pressure (3,4,77). Different strains of lactobacilli and fermented milk products containing probiotic bacteria may help prevent and treat urinary tract infections, bacterial vaginosis, and yeast vaginitis in women (1,3,6,78,79). Probiotics may also help relieve constipation (5,7,80), reduce colic in infants (81), alleviate kidney stones (1), decrease inflammation associated with arthritis (82), and protect against dental caries (1,83).
Table of Contents:
|