Tuula Vesa scite author profile

Lactose maldigestion has been under intensive research since its discovery in the 1960's. We know the prevalence of lactose maldigestion in a great number of countries and ethnic groups. However, there is often no provision made for the secondary type of maldigestion, and the study populations have sometimes been selected rather than picked at random. New methods for the measurement of lactose digestion have been developed, and its genetic mechanisms have received a great deal of attention during the last few years. However, in many studies the measurement and/or reporting of symptoms has quite often been overlooked. In this review, various topics related to lactose intolerance are discussed with a special emphasis on its symptoms.

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Pharmacokinetics of Lactobacillus plantarum NCIMB 8826, Lactobacillus fermentum KLD, and Lactococcus lactis MG 1363 in the human gastrointestinal tract

Vesa¹,

Pochart

Marteau

2000

Aliment Pharmacol Ther

186

138

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Objectives: Genetically modified lactic acid bacteria may be a way to deliver vaccinal epitopes in the gastrointestinal tract. Aim: Three strains of lactic acid bacteria were studied for their pharmacokinetics in the human gastrointestinal tract. Methods: The survival of the strains was studied up to the ileum in six subjects each, after ingestion of 150 g of fermented milk. The strains and their concentrations in the products were Lactobacillus fermentum KLD (107 cfu/g), Lactobacillus plantarum NCIMB 8826 (108 cfu/g), and Lactococcus lactis MG 1363 (108 cfu/g). Ileal fluid was aspirated by intestinal intubation and immediately cultured. L. plantarum NCIMB 8826, which was found in high concentrations in the ileum, was studied for its survival in the faeces after consumption of 150 g of fermented milk three times daily for 7 days. Faecal samples were collected for culture. Results: The concentration of L. plantarum NCIMB 8826 in the ileum reached 108 cfu/mL after a single dose, with a survival of 7%. L. fermentum KLD and Lc. lactis MG 1363 had lower (0.5 and 1.0%, respectively) and shorter (4 h) survival in the ileum. During the 7‐day ingestion period, L. plantarum NCIMB 8826 reached high concentrations (108 cfu/g) in the faeces, with a survival of 25 ± 29%. None of the strains colonized. Conclusions: L. plantarum NCIMB 8826 has a promising pharmacokinetic profile as a candidate vaccine vehicle.

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Role of irritable bowel syndrome in subjective lactose intolerance

Vesa

Seppo

Marteau

et al. 1998

The American Journal of Clinical Nutrition

117

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It has been suggested that the symptoms of irritable bowel syndrome (IBS) may be wrongly attributed to lactose intolerance. We examined the relations among IBS, demographic factors, living habits, and lactose intolerance. On the basis of a lactose tolerance test with ethanol, 101 of the 427 healthy subjects studied were lactose maldigesters and 326 were lactose digesters. IBS was diagnosed by means of the Bowel Disease Questionnaire, according to the Rome criteria. The use of dairy products and symptoms experienced after their consumption were recorded. IBS was found in 15% of both the lactose maldigesters and lactose digesters. One-third of the subjects reported intolerance to dairy products containing < or = 20 g lactose. About half of this third were lactose maldigesters and about half were lactose digesters. As explanations for this subjective lactose intolerance, the logistic regression model estimated lactose maldigestion (odds ratio: 10.3; 95% CI: 5.2, 20.4), IBS (4.6; 2.1, 10.1), experience of symptoms other than gastrointestinal ones (2.3; 1.2, 4.5), and female sex (2.1; 1.1, 4.0). Characteristics common to both subjective lactose intolerance and IBS were female sex and the experience of abdominal pain in childhood (P < 0.01). Age, regularity of meals, and the amount of physical activity were not associated with either subjective lactose intolerance or IBS. Of the subjects with IBS, the percentage of lactose maldigesters was the same as in the whole study group (24%) but the number who reported lactose intolerance was higher (60% compared with 27%, P < 0.001). We showed a strong relation among subjective lactose intolerance, IBS, the experience of abdominal pain in childhood, and female sex.

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Tolerance to small amounts of lactose in lactose maldigesters

Vesa

Korpela

Sahi

1996

The American Journal of Clinical Nutrition

101

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In this study we examined whether small doses of lactose induced symptoms in 39 lactose maldigesters and 15 lactose digesters in a randomized, crossover, double-blind design. The test doses were 200 mL fat-free, lactose-free milk to which 0, 0.5, 1.5, and 7 g lactose was added. Every third day of a lactose-free diet, after an overnight fast, the subjects drank one of the test milks in random order and registered the occurrence and severity of gastrointestinal symptoms in the next 12 h. During the study, the maldigesters reported significantly more abdominal bloating (P = 0.0003) and abdominal pain (P = 0.006) than the digesters. There was no difference in the mean severity of the reported symptoms between the test milks and the lactose-free milk in the group of lactose maldigesters, of whom one-third did not experience any symptoms from any of the test doses. The same proportion (64%) of the maldigesters experienced symptoms after both the lactose-free milk and the milk with 7 g lactose. However, the symptoms occurred inconsistently with the different test doses in 59% of the maldigesters. Thus, it can be concluded that the gastrointestinal symptoms in most lactose maldigesters are not induced by lactose when small amounts (0.5-7.0 g) of lactose are included in the diet.

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Pharmacokinetics of Probiotics and Biotherapeutic Agents in Humans

Marteau¹,

Vesa²

1998

Bioscience Microflora

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Probiotics or biotherapeutic agents can influence physiology through direct or indirect effects occurring in the gastrointestinal tract. Knowledge on their pharmacokinetics is needed 1) to answer the questions how much probiotic should be consumed?, how often?, how long?; 2) to correlate the effects with the concentration of the probiotic at the target site; 3) to validate hypotheses such as "a probiotic should be of human origin, ... have a high survival capacity, ... adhere to the intestinal epithelium" ...; 4) to anticipate the effects of other probiotics; 5) to establish what concentrations should be present in the commercial preparations; 6) for safety. Some in vitro models have been developed to predict the survival of probiotics in vivo or their adherence to the intestinal epithelium, however, the best way to establish the pharmacokinetics of a probiotic is to measure it in vivo. Three techniques can be used: collection of feces, pixigraphy, and intestinal intubation. The use of transit markers such as spores of Bacillus stearothermophilus is necessary to study the potential for probiotics to colonize (i.e. to persist for longer period than the inert marker). Knowledge on the pharmacokinetics of probiotics is reviewed. Some strains can adhere to cell lines such as CaCo2 or HT29. The survival of ingested probiotics differs greatly between genus and strains. Some strains are rapidly destroyed in the stomach while others such as some Bifidobacterium sp. or Lactobacillus sp. survive till feces.

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Tuula Vesa

Lactose Intolerance

Pharmacokinetics of Lactobacillus plantarum NCIMB 8826, Lactobacillus fermentum KLD, and Lactococcus lactis MG 1363 in the human gastrointestinal tract

Role of irritable bowel syndrome in subjective lactose intolerance

Tolerance to small amounts of lactose in lactose maldigesters

Pharmacokinetics of Probiotics and Biotherapeutic Agents in Humans

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