Background
Gestational diabetes mellitus (GDM) is known as a complication of pregnancy and is characterized by glucose intolerance which leads to adverse events such as macrosomia, neonatal hypoglycemia, neonatal hyper-bilirubinemia, preterm labor and increased risk of cesarean section [
1,
2]. About 7% of all pregnancies in the United States are complicated by GDM, and its prevalence in Iran is approximately 6% of pregnancies [
3,
4]. Recently, various complementary therapies have been considered for controlling blood glucose. Probiotics are microorganisms which can produce a microbial balance in the intestine and have a positive effect on the host [
5‐
8]. Some of the mostly documented health benefits for probiotics include effectiveness against diarrhea, improvement of lactose metabolism, immunomodulation, as well as anti-inflammatory, anti-carcinogenic, anti-diabetic, hypo-cholesterolemic, and hypotensive characteristics [
6,
9‐
11]. In addition to their impact on gastrointestinal disorders, the effect of probiotics on the improvement of blood glucose and lipid profile in patients with type 2 diabetes mellitus and GDM has been reported [
12‐
15]. It has been also reported that probiotics reduce blood glucose and improve insulin resistance in diabetic rats and humans [
11,
16]. Despite of the importance of GDM and its impacts on maternal and neonatal outcomes, few studies have evaluated the probiotics effect on improving glucose intolerance and insulin resistance as well as the outcomes of pregnancies complicated by GDM. Considering the potential of probiotic bacteria, the aim of the present trial was to investigate the effects of probiotic yoghurt containing
L. acidophilus and
B. lactis consumption on the glycemic parameters including FBG, post prandial BS, and HbA1c and the outcome of pregnancy including gestational age, weight, length, head circumference, macrosomia, and admission to NICU in GDM patients.
Methods
Subjects
In this double-blind placebo-controlled clinical trial, 84 patients with the diagnosis of GDM were recruited consecutively from the outpatient obstetrics clinic of Tabriz University of Medical Sciences. Inclusion criteria was as the following: patients referring to Tabriz Al-Zahra and Talegani high-risk outpatient clinic with the diagnosis of GDM, patients in their second trimester of pregnancy and patients diagnosed by oral glucose tolerance test (OGTT) between 24th and 28th weeks of pregnancy. Exclusion criteria was presence of other physical or psychological problems, presence of already-known fetal anomalous and not to consent to involve in the study.
Sample size
The sample size for the study was calculated on the basis of the results (mean ± SD) for FBG as reported by Ejtahed et al. [
12] with a confidence level of 95% and a power of 80%. Taking into account the probable dropout of patients during the intervention course as well as those who may not adhere to the study protocol, 42 patients with GDM were recruited for each group.
Study design
Subjects were randomly assigned to the probiotic group (n = 20) receiving 300 mg/day of probiotic yoghurt (contained 106 Lactobacillus acidophilus and Bifidobacterium lactis) or placebo (n = 20) group receiving 300 mg/day of ordinary yoghurt for 8 weeks, using a block randomization procedure with stratified subjects in each block based on age and week of pregnancy. All cans were coded by the company (Pegah Dairy Industries Company) and either the researcher or the patients were unaware of the contents. One week before the beginning of the trial, all patients refrained from eating yoghurt or any other fermented foods. All patients were asked, throughout the 8-week trial, to maintain their usual dietary habits and lifestyle and to avoid consuming any yoghurt other than that provided to them by the researchers and any other fermented foods. The patients were instructed to keep the yoghurt under refrigeration and to avoid any changes in medication, if possible.
This study was approved by the Ethics Committee of Tabriz University of Medical Sciences (Iran) and written informed consent was obtained from all subjects before inclusion in the study.
Clinical and biochemical measurements
At baseline, all participants were examined by an obstetrician and the parameters including age, history of pregnancies, weight, height, body mass index, smoking, and blood pressure were measured. Ten ml of venous whole blood was obtained from each participant both before and after intervention after 12-h overnight fasting. The primary outcomes were the level of fasting blood glucose (FBG), post prandial blood glucose (BG), and HbA1c. Additionally, the secondary outcomes were the neonatal outcomes including weight, length, head circumference, presence of macrosomia and need for NICU admission that were also recorded.
Statistical analysis
Statistical analysis was performed using SPSS software version 18.0 (SPSS, Inc., USA). Normality of variables distribution was evaluated using the Kolmogorov–Smirnov test. Variables not normally distributed were analyzed using nonparametric tests. Categorical and normally distributed quantitative variables were displayed as numbers (percentages) and mean ± SD, respectively. Non-normally distributed quantitative variables were presented as median (interquartile range). Between groups comparisons were made by χ2, independent-sample t test, and paired sample t test, as appropriate. Correlations between variables were analyzed by Pearson correlation test or Spearman rank correlation analysis. p < 0.05 was considered statistically significant.
Discussion
Management of GDM without any side effects by natural food is a challenge for medical nutrition therapy of GDM. The present research is the first study evaluated the effect of consumption of probiotic yoghurt containing Lactobacillus acidophilus and Bifidobacterium lactis on glycemic response the outcome of pregnancy in GDM patients. According to the findings of present study, we found that using probiotic yoghurt causes a significant improvement in blood glucose levels and reduce risk of macrosomia.
Throughout pregnancy the gut microbiota undergoes significant changes. From the first (T1) to the third trimester (T3), the species richness of the gut microbiome decreases [
17], although this has not been observed in all studies [
18]. There is an increase in
Proteobacteria and
Actinobacteria phyla and a reduction in beneficial bacterial species
Roseburia intestinalis and
Faecalibacterium prausnitzii [
17,
19]. These changes in gut microbial composition cause inflammation and correlate with increases in fat mass, blood glucose, insulin resistance and circulating pro-inflammatory cytokines in the expectant mother [
20]. This “diabetic-like” state observed during the later stages of all healthy pregnancies is thought to maximize nutrient provision to the developing fetus [
21]. However, increased insulin resistance combined with an inability to secrete the additional insulin required to maintain glucose homeostasis can result in the development of gestational diabetes mellitus (GDM) in the mother and macrosomia in the baby. The fasting hyperglycemia in women with GDM is associated with increased short-term and long-term complications in neonates [
22]. Safe and inexpensive interventions for prevention and treatment of GDM are needed. Considering that certain microorganisms in the gastrointestinal tract can produce a positive effect on host metabolism, probiotic supplements can help maintain bacterial diversity and homeostasis in people with metabolic disorders [
22,
23]. Experiments involving human intubation and sampling of probiotics from the cecum showed that probiotics, when given in fermented milk, survive to the extent of 23.5% ± 10.4% of the administered dose. With the use of known probiotic species and strains, it was determined that the delivery of
Lactobacillus and bifidobacteria to the cecum was ≈ 30% and 10% of the administered dose, respectively [
24]. In a research conducted by Homayouni et al. in 2012, the made it clear that foods are better carriers for probiotics than supplements [
25]. Considering the survivability of
Lactobacillus and bifidobacteria in human gastric trac and by knowing that fermented dietary products are better vehicle for probiotics we have evaluated the efficacy of yoghurt containing
L. acidophilus and
B. lactis in patients whose pregnancy is complicated by GDM.
Several studies showed benefits of probiotic use for improving blood glucose control in patients with GDM and T2DM (type 2 diabetes mellitus) [
9,
26‐
30]; however, the efficacy of probiotics on pregnancy outcomes in GDM patients was not studied before. The findings of present research indicated that consumption of probiotic yoghurt containing
L. acidophilus and
B. lactis for 2 months could improve glycemic control in women with GDM.
Asemi et al. [
29] evaluated the effects of daily consumption of probiotic yoghurt on insulin resistance and levels of insulin in the serum of pregnant women in the third trimester of gestation. The probiotic yoghurt used in this study was enriched with a probiotic culture of
L. acidophilus LA5 and
Bifidobacterium animalis BB12 with at least 10
7 Colony Forming Unities. Daily consumption of probiotic yoghurt for 9 weeks was effective in maintaining normal serum insulin levels in pregnant women and thus contributing to prevent the development of insulin resistance, which usually develops during the last trimester in pregnant women. The study demonstrated an improvement in glycemic control during the last trimester of pregnancy, extending in the postpartum period for 12 months.
In the study conducted by Badehnoosh et al. [
31] on 60 subjects with GDM they found that consumption of probiotic capsule containing
Lactobacillus acidophilus,
Lactobacillus casei and
Bifidobacterium bifidum (2 × 10
9 CFU/g each) for 6 weeks had beneficial effects on glycemic response, and serum inflammatory and oxidative stress biomarkers.
Dolatkhah et al. [
27] conducted a study with women between 18 and 45 years of age with GDM between 24 and 28 weeks of pregnancy. The study was based on the daily consumption of probiotic capsules containing four bacterial strains (4 × 10
9 CFU) in lyophilized culture, or placebo. The probiotic supplement appeared to improve glucose metabolism and weight gain among pregnant women with GDM.
Karamali et al. [
28] analyzed the effects of probiotic supplementation on glycemic control and the lipid profiles over a period of 6 weeks. This study included 60 pregnant women with GDM, from 24 to 28 weeks of pregnancy. The probiotic group took a daily capsule containing 10
9 CFU/g
L. acidophilus,
L. casei, and
Bifidobacterium bifidum. After 6 weeks of treatment with probiotics, glycaemia, triglycerides, and VLDL cholesterol concentration decreased compared with the placebo group. In another 12-week study in pregnant women, probiotic supplementation containing the same strains, concluded that the probiotics had a positive effect on the metabolism of insulin, triglycerides, biomarkers of inflammation, and oxidative stress [
32].
Recently, Jafarnejad et al. [
33] analyzed the effects of a mixture of probiotics (VSL#3) on the glycemic state and inflammatory markers in 72 GDM patients through a double blind and randomized controlled clinical trial. The study groups consumed either a probiotic or placebo capsules twice a day for 8 weeks. The study concluded that for women with GDM, a probiotic supplementation can modulate some of the inflammatory markers and improve glycemic control.
In the study of Lindsay et al. [
34], 149 pregnant women older than 18 years, before 34 weeks of pregnancy, were divided between probiotic and placebo groups and the aim of their study was to investigate the effects of probiotic capsule contained 100 mg
Lactobacillus salivarius on metabolic parameters and pregnancy outcomes in pregnant women with GDM. No significant differences were observed between the groups concerning the post-intervention fasting blood glucose and birth weight. In addition, Lindsay et al. [
35] investigated the effects of probiotic supplementation on fasting maternal glycaemia in obese pregnant women with a Body Mass Index (BMI) of > 30 kg/m
2 between 24 and 28 weeks of pregnancy. A probiotic or placebo capsule was ingested daily, each probiotic capsule containing 100 mg of lyophilised
Lactobacillus salivarius. The study showed no effect of probiotic intervention during 4 weeks on glycaemia. Their findings were different maybe because of the use of other probiotic strain and/or different intervention duration.
In general, probiotics can improve glycemic control and neonatal outcomes of patients with GDM [
36]; however, the mechanisms whereby probiotics alter glucose homeostasis are not completely understood. One proposed method is by the production of short chain fatty acids (SCFAs), generated as a by-product of bacterial fermentation of dietary fibers. SCFAs act as an energy source for intestinal cells and have been found to regulate the production of hormones affecting energy intake and expenditure such as leptin and grehlin [
37]. The binding of SCFAs to G protein-coupled receptors GPR41 and GPR43 increases the intestinal expression of Peptide YY and Glucagon-like peptide-1 (GLP-1) hormones which act to reduce appetite by slowing intestinal transit time and increasing insulin sensitivity [
19]. Another hypothesized mechanism of SCFA action includes reducing gastrointestinal permeability by up-regulating transcription of tight junction proteins, enhancing production of Glucagon-like peptide-2 (GLP-2) which promotes crypt cell proliferation, and reducing inflammation in colonic epithelial cells by increasing PPAR-gamma activation [
38]. Maintenance of the integrity of the gut barrier minimizes the concentration of lipopolysaccharide (LPS) in circulation. LPS is a structural component of gram negative bacterial cell walls, which induces an immune-cell response upon absorption into the human bloodstream, stimulating pro-inflammatory cytokine production and the onset of insulin resistance and hyperglycemia [
39].
Considering the beneficial effects of probiotic supplementation in present research and the less amount of studies in this field, further research are needed to investigate the beneficial effects of several probiotic strains in different dose and duration on biochemical parameters and pregnancy outcomes in GDM patients.
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