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Gut microbiota modulate distal symmetric polyneuropathy in patients with diabetes.
Yang, J, Yang, X, Wu, G, Huang, F, Shi, X, Wei, W, Zhang, Y, Zhang, H, Cheng, L, Yu, L, et al
Cell metabolism. 2023;35(9):1548-1562.e7
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Distal symmetric polyneuropathy (DSPN) is the most common complication associated with diabetes, which can lead to pain, numbness, and weakness or tingling in the limbs or parts of the body. There are no cures for DSPN only drugs to manage symptoms, highlighting a need for further research. Recently it has been shown that the gut microbiota of individuals with DSPN differs to that of healthy individuals, but it is unclear as to the significance of this. This randomised control trial aimed to determine the effect of transplanting faecal microbiota from healthy individuals into those with DSPN. The results showed that DSPN was associated with a decreased abundance of beneficial gut bacteria and an increased abundance of pathogenic bacteria. Furthermore, compared to placebo, DSPN was alleviated in all 22 patients who received a faecal microbiota transplant from healthy subjects. There was an increase in gut microbiota associated with the production of beneficial short chain fatty acids and a decrease in toxin production. It was concluded that dysbiosis in the gut microbiota contributes to DSPN, which can be alleviated by faecal microbial transplant from healthy individuals. This study could be used by healthcare professionals to understand that the gut microbiota has an important role in DSPN. Further larger studies would be warranted before recommending faecal microbial transplant to individuals with this disorder.
Abstract
The pathogenic mechanisms underlying distal symmetric polyneuropathy (DSPN), a common neuropathy in patients with diabetes mellitus (DM), are not fully understood. Here, we discover that the gut microbiota from patients with DSPN can induce a phenotype exhibiting more severe peripheral neuropathy in db/db mice. In a randomized, double-blind, and placebo-controlled trial (ChiCTR1800017257), compared to 10 patients who received placebo, DSPN was significantly alleviated in the 22 patients who received fecal microbiota transplants from healthy donors, independent of glycemic control. The gut bacterial genomes that correlated with the Toronto Clinical Scoring System (TCSS) score were organized in two competing guilds. Increased guild 1, which had higher capacity in butyrate production, and decreased guild 2, which harbored more genes in synthetic pathway of endotoxin, were associated with improved gut barrier integrity and decreased proinflammatory cytokine levels. Moreover, matched enterotype between transplants and recipients showed better therapeutic efficacy with more enriched guild 1 and suppressed guild 2. Thus, changes in these two competing guilds may play a causative role in DSPN and have the potential for therapeutic targeting.
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Effects of dietary fibers or probiotics on functional constipation symptoms and roles of gut microbiota: a double-blinded randomized placebo trial.
Lai, H, Li, Y, He, Y, Chen, F, Mi, B, Li, J, Xie, J, Ma, G, Yang, J, Xu, K, et al
Gut microbes. 2023;15(1):2197837
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Functional constipation is characterised by continuously difficult, incomplete, or infrequent defecation, without an organic origin. Effective intervention strategies are required to relieve the functional constipation difficulties, particularly in rapidly aging populations, such as Chinese populations. The aim of this study was to evaluate the effectiveness of three dietary fibre formulas (polydextrose, psyllium husk, and wheat bran + psyllium husk) and one probiotic supplement on the improvement of constipation symptoms among Chinese adults with functional constipation. This study was a double-blinded randomised placebo-controlled trial which enrolled 250 participants who were randomly assigned to one of the five groups. Results showed: - that daily supplement of three prebiotic formulas with dietary fibres, or a probiotic formula effectively relieved hard stool in functional constipation patients after 4 weeks intervention. - the capacity of gut microbial genera in shaping the intervention responsiveness in the improvement of bowel movement frequency, Bristol stool scale score, and degree of defecation straining. Authors conclude that the pre or probiotic interventions may modulate gut microbiota, associated with intestinal health.
Abstract
Dietary fibers/probiotics may relieve constipation via optimizing gut microbiome, yet with limited trial-based evidences. We aimed to evaluate the effects of formulas with dietary fibers or probiotics on functional constipation symptoms, and to identify modulations of gut microbiota of relevance. We conducted a 4-week double-blinded randomized placebo-controlled trial in 250 adults with functional constipation. Intervention: A: polydextrose; B: psyllium husk; C: wheat bran + psyllium husk; D: Bifidobacterium animalis subsp. lactis HN019 + Lacticaseibacillus rhamnosus HN001; Placebo: maltodextrin. Oligosaccharides were also included in group A to D. 16S rRNA sequencing was used to assess the gut microbiota at weeks 0, 2, and 4. A total of 242 participants completed the study. No time-by-group effect was observed for bowel movement frequency (BMF), Bristol stool scale score (BSS), and degree of defecation straining (DDS), while BSS showed mean increases of 0.95-1.05 in group A to D (all P < 0.05), but not significantly changed in placebo (P = 0.170), and 4-week change of BSS showed similarly superior effects of the interventions as compared placebo. Group D showed a marginal reduction in plasma 5-hydroxytryptamine. Group A resulted in a higher Bifidobacterium abundance than placebo at week 2 and 4. Fourteen genera showed intervention-specific increasing or decreasing trends continuously, among which Anaerostipes showed increasing trends in groups B and C, associated with BMF increase. Random forest models identified specific baseline microbial genera panels predicting intervention responders. In conclusion, we found that the dietary fibers or probiotics may relieve hard stool, with intervention-specific changes in gut microbiota relevant to constipation relief. Baseline gut microbiota may predispose the intervention responsiveness. ClincialTrials.gov number, NCT04667884. What is the context?Supplementation of dietary fibers, such as psyllium husk or wheat bran (10 ~ 15 g/day) may relieve constipation symptoms, but bloating and flatulence are major concerns on a high fiber intake.Functional constipation patients had alternated gut microbiota profiles, while meta-analysis suggested that multispecies probiotics may increase bowel movement frequency and relieve hard stool in functional constipation.Dietary fibers or probiotics may lead to before-after changes of gut microbiota in patients with functional constipation, but time-series continued changes of gut microbiota during the intervention are unknown.Elevation of 5-hydroxytryptamine synthesis in enterochromaffin cells may affect bowel movement. And the elevated plasma 5-hydroxytryptamine was observed in functional constipation patients.What is new? Daily supplement of three prebiotic formulas with dietary fibers (polydextrose, psyllium husk, wheat bran, together with oligosaccharides), or a probiotic formula with Bifidobacterium animalis subsp. lactis HN019 + Lacticaseibacillus rhamnosus HN001 effectively relieved hard stool in functional constipation patients after 4 weeks intervention.We identified continued increasing or decreasing gut microbial genera over the intervention. Dietary fiber – gut microbiota (Anaerostipes)—constipation relieve (bowel movement frequency) evidence axis was identified in this human trial.Probiotic supplementation marginally reduced plasma 5-hydroxytryptamine, possibly associated with changes in BMF-related gut microbial genera.Intervention-specific baseline gut microbiota well predicted the responsiveness of constipation symptom relief.What is the impact? We provided references for the dosage and duration of dietary fiber/probiotics recommendations for adults with functional constipation, and advanced the microbial genera evidences of the fibers/probiotics-microbiota-laxation theory in humans.
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Combined berberine and probiotic treatment as an effective regimen for improving postprandial hyperlipidemia in type 2 diabetes patients: a double blinded placebo controlled randomized study.
Wang, S, Ren, H, Zhong, H, Zhao, X, Li, C, Ma, J, Gu, X, Xue, Y, Huang, S, Yang, J, et al
Gut microbes. 2022;14(1):2003176
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Hyperlipidaemia is a major risk factor for atherosclerotic cardiovascular diseases particularly when combined with hyperglycaemia and type 2 diabetes (T2D). Current diagnostic criteria and treatment targets are based on evaluating fasting lipidaemia (FL). However, increasing evidence has supported that a high level of non-fasting lipidaemia, mainly constituted by post-prandial lipidaemia (PL), is also an important CVD risk factor. The aim of this study was to investigate how the combination treatment of berberine (BBR) and probiotics (Prob), or either one could exert benefit on lowering PL, and whether their impact on gut microbiota could contribute to this effect. This study is based on the PREMOTE trial, which was a randomised, double-blind, placebo-controlled clinical trial in 20 medical centres in China and enrolled newly diagnosed T2D patients. This lipidomic study included 365 of the 409 participants enrolled for the PREMOTE trial. Results showed that: - Prob+BBR combined therapy exerted a similar effect on reducing fasting lipidaemia with BBR alone but a superior effect on the levels of postprandial plasma total cholesterol and post-prandial low-density lipoprotein cholesterol compared to either BBR or Prob alone. - a substantial decrease in various lipid species after Prob+BBR treatment. Authors conclude that their findings proved the therapeutic effect of a combined treatment of oral administration of probiotics with berberine on improving PL in patients newly diagnosed with T2D and proposed a new gut microbiome related remedy for managing dyslipidaemia, covering both PL and FL, in patients with T2D.
Abstract
Non-fasting lipidemia (nFL), mainly contributed by postprandial lipidemia (PL), has recently been recognized as an important cardiovascular disease (CVD) risk as fasting lipidemia (FL). PL serves as a common feature of dyslipidemia in Type 2 Diabetes (T2D), albeit effective therapies targeting on PL were limited. In this study, we aimed to evaluate whether the therapy combining probiotics (Prob) and berberine (BBR), a proven antidiabetic and hypolipidemic regimen via altering gut microbiome, could effectively reduce PL in T2D and to explore the underlying mechanism. Blood PL (120 min after taking 100 g standard carbohydrate meal) was examined in 365 participants with T2D from the Probiotics and BBR on the Efficacy and Change of Gut Microbiota in Patients with Newly Diagnosed Type 2 Diabetes (PREMOTE study), a random, placebo-controlled, and multicenter clinical trial. Prob+BBR was superior to BBR or Prob alone in improving postprandial total cholesterol (pTC) and low-density lipoprotein cholesterol (pLDLc) levels with decrement of multiple species of postprandial lipidomic metabolites after 3 months follow-up. This effect was linked to the changes of fecal Bifidobacterium breve level responding to BBR alone or Prob+BBR treatment. Four fadD genes encoding long-chain acyl-CoA synthetase were identified in the genome of this B. breve strain, and transcriptionally activated by BBR. In vitro BBR treatment further decreased the concentration of FFA in the culture medium of B. breve compared to vehicle. Thus, the activation of fadD by BBR could enhance FFA import and mobilization in B. breve and diliminish the intraluminal lipids for absorption to mediate the effect of Prob+BBR on PL. Our study confirmed that BBR and Prob (B. breve) could exert a synergistic hypolipidemic effect on PL, acting as a gut lipid sink to achieve better lipidemia and CVD risk control in T2D.
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White common bean extract remodels the gut microbiota and ameliorates type 2 diabetes and its complications: A randomized double-blinded placebo-controlled trial.
Feng, Y, Zhu, J, Wang, Q, Cao, H, He, F, Guan, Y, Li, D, Yan, J, Yang, J, Xia, Y, et al
Frontiers in endocrinology. 2022;13:999715
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Patients with type 2 diabetes (T2D) have a higher risk of macrovascular complications. Intensive glycaemic control reduces microvascular complications and exerts a modest improved effect on macrovascular outcomes. The main aim of this study was to explore the effects of white common bean extract (WCBE) on glucose metabolism and diabetic complications in patients with T2D. This study was a randomised double-blind placebo-controlled trial which enrolled ninety-six patients with T2D aged between 35 and 75 years. Participants were randomly assigned in a 1:2 ratio to the control group and WCBE group. Results showed that WCBE alleviated glucose metabolism dysbiosis and diabetic complication indices. In fact, after 2 months of an intense intervention with a WCBE treatment and in the following two-month maintenance period, the improvements to glycaemic metabolism were preserved. Furthermore, there was notable improvement of the structure of the gut microbiota, especially the enrichment of short-chain fatty acid-producing bacteria and inhibition of opportunistic pathogens. Authors conclude that WCBE may be considered as a novel prebiotic antidiabetic agent for the regulation of glucose metabolism and gut microbiota homeostasis and may slightly ameliorate diabetic complications in patients with T2D.
Abstract
OBJECTIVE Excessive carbohydrate intake is a high risk factor for increased morbidity of type 2 diabetes (T2D). A novel regimen for the dietary care of diabetes that consists of a highly active α-amylase inhibitor derived from white common bean extract (WCBE) and sufficient carbohydrates intake was applied to attenuate T2D and its complications. Furthermore, the role of gut microbiota in this remission was also investigated. METHODS We conducted a 4-month randomized double-blinded placebo-controlled trial. During the intense intervention period, ninety subjects were randomly assigned to the control group (Group C) and WCBE group (Group W). Subjects in Group C were supplemented with 1.5 g of maltodextrin as a placebo. Subjects in Group W took 1.5 g of WCBE half an hour before a meal. Fifty-five participants continued the maintenance intervention receiving the previous dietary intervention whereas less frequent follow-up. The variation in biochemical, vasculopathy and neuropathy indicators and the structure of the fecal microbiota during the intervention was analyzed. RESULT Glucose metabolism and diabetic complications showed superior remission in Group W with a 0.721 ± 0.742% decline of glycosylated hemoglobin after 4 months. The proportion of patients with diabetic peripheral neuropathy (Toronto Clinical Scoring System, TCSS ≥ 6) was significantly lower in Group W than in Group C. Both the left and right sural sensory nerve conduction velocity (SNCV-left sural and SNCV-right sural) slightly decreased in Group C and slightly increased in Group W. Additionally, the abundances of Bifidobacterium, Faecalibacterium and Anaerostipes were higher in Group W, and the abundances of Weissella, Klebsiella, Cronobacter and Enterobacteriaceae_unclassified were lower than those in Group C at month 2. At the end of month 4, Bifidobacterium remained more abundant in Group W. CONCLUSION To our knowledge, this is the first report of improvement to diabetes complications by using a dietary supplement in such a short-term period. The enrichment of SCFA-producing bacteria might be responsible for the attenuation of T2D and its complications. CLINICAL TRIAL REGISTRATION NUMBER http://www.chictr.org.cn/edit.aspx?pid=23309&htm=4, identifier ChiCTR-IOR-17013656.
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Gut microbiome-related effects of berberine and probiotics on type 2 diabetes (the PREMOTE study).
Zhang, Y, Gu, Y, Ren, H, Wang, S, Zhong, H, Zhao, X, Ma, J, Gu, X, Xue, Y, Huang, S, et al
Nature communications. 2020;11(1):5015
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Berberine, which is a naturally occurring alkaloid found in plants, has been traditionally used as a remedy to protect against Type 2 diabetes and other metabolic disorders. It is important to study how berberine affects the human gut microbiome, specifically in regard to its impact on short-chain fatty acid and bile acid metabolism, due to its low oral bioavailability. The PREMOTE study investigated the glycaemic lowering effects of individual and combination of berberine and probiotics in newly diagnosed Type 2 Diabetes patients. This randomised, double-blinded, placebo-controlled trial included four hundred and nine Type 2 diabetic patients and randomly assigned them (1:1:1:1 ratio) to receive berberine alone, berberine combined with probiotics, probiotics alone or a placebo for twelve weeks. A combination of berberine plus probiotics and berberine alone significantly improved glycated haemoglobin levels compared to the placebo and probiotics alone treatment. The antidiabetic effects of berberine could be due to the Ruminococcus bromii abundance followed by the berberine treatment and its ability to inhibit deoxycholic acid biotransformation. Further robust studies are required to consider the therapeutic application of berberine and probiotics in a general population due to the limitations of the present study. However, healthcare professionals can use the results of this trial to understand the mechanism behind the anti-diabetic effects of berberine and probiotics.
Expert Review
Conflicts of interest:
None
Take Home Message:
- The use of berberine, as a specific antimicrobial agent, along with high strength probiotics may be beneficial for managing blood glucose and potentially other metabolic health markers alongside diet and lifestyle modifications
Evidence Category:
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X
A: Meta-analyses, position-stands, randomized-controlled trials (RCTs)
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B: Systematic reviews including RCTs of limited number
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C: Non-randomized trials, observational studies, narrative reviews
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D: Case-reports, evidence-based clinical findings
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E: Opinion piece, other
Summary Review:
Introduction
Dysbiosis of the human gut microbiome has been associated with the development of type 2 diabetes (T2D). Research has found that, in part, mechanisms of action for the antidiabetic medications, Metformin and Acarbose, include alterations in the gut microbiome as well as the inhibition of bile acid (BA) metabolism and signalling. Remedies targeting the gut microbiota for treatment of T2D and other metabolic diseases have therefore been investigated.
Berberine (BBR) has been used in Indian Ayurvedic and Traditional Chinese Medicine to treat metabolic conditions for hundreds of years. Probiotics have also been extensively researched for their potential metabolic benefits. This randomised, double-blind, placebo-controlled trial aimed to investigate whether BBR and probiotics may be effective in managing T2D.
Methods
A total of 409 participants aged 42-61 years were recruited from 20 medical centres in China. All patients were newly diagnosed (<12 months) with T2D and had no previous antidiabetic medication history. Participants were randomised into 4 groups; Probiotics and BBR, BBR only, probiotics only or a placebo for 12 weeks. Subgroup analysis was also completed for those aged >50 and >54.
Dosage of BBR was 0.6 g prior to a meal, twice daily. 4 g of powdered multi-strain probiotics including 9 strains of lactic acid bacteria were taken at bedtime. All participants were given a 7-day broad-spectrum antibiotic treatment immediately prior to baseline. 391 people completed the trial. The primary outcome measurement was glycaemic haemoglobin (HbA1c). Secondary evaluations of additional metabolic markers included fasting and post-load plasma glucose (FPG, PPG), homeostasis assessment model index for insulin resistance (HOMA-IR), total cholesterol (TC), high density lipoprotein cholesterol (HDL-c), low density lipoprotein cholesterol (LDL-c) and serum triglycerides (TG).
Results
Results showed a reduction in glycaemic haemoglobin (HbA1c) for both the BBR plus probiotics group (least squares mean [95% CI] -1.04 [-1-19, -0.89]% ) and the BBR only group (-.99 [-1.16, 0.83]%). The results for these groups were significantly greater than the probiotics alone (-0.53 {-068, -0.37]%) and the placebo groups (0.59 [-0.75, -0.44]%).
Secondary metabolic evaluations for FPG and PPG, TC, LDL -c and TGs also showed similar improvements in the BBR and BBR plus probiotic groups only. Additionally, in the >50 and >54 subgroups BBR and probiotics marginally improved the HOMA-IR.
Metagenomic and metabolomic analysis of the gut microbiome was also undertaken after a one-week pre-treatment with antibiotics immediately prior to the trial and at week 13. These results showed that the blood glucose lowering effects of BBR may be due to decreased deoxycholic acid species (DCA) biotransformation by ruminococcus bromii.
Higher levels of adverse gastrointestinal side effects were reported in the BBR treatment groups, however, the authors reported that this did not affect glycemic control outcomes.
Conclusion
This study found that BBR had an antidiabetic effect through microbial alterations in the human gut microbiome
The authors declare no conflicts of interest.
Clinical practice applications:
- 600mg of BBR twice daily prior to a meal plus a multi-strain (lactic acid) probiotic of >50 billion colony forming units (CFU) for 12 weeks may be effective in lowering HbA1c in T2D clients diagnosed within the previous 12 months
- Further research is needed for clients with longer term T2D diagnosis
- Insulin resistance may be marginally improved in clients >50
- Practitioners should be aware that in this study, adverse gastrointestinal side effects were more likely to be be experienced with the use of BBR
Considerations for future research:
The authors reported several limitations to this study:
- A population of Chinese people living in China may not be generalisable to other ethnic/racial populations
- The study was over a short duration. Longer studies are needed to confirm the results
- Participants had newly diagnosed T2D and had not received any previous medications. Future studies should include patients with a longer diagnosis time
- Records should be kept of any additional lifestyle changes made by the participants
- Adverse reactions were experienced in the BBR groups, in this study. It was reported that the gut microbiome and anti-diabetic effects were not affected, however, this may be something to be considered in longer trials.
Abstract
Human gut microbiome is a promising target for managing type 2 diabetes (T2D). Measures altering gut microbiota like oral intake of probiotics or berberine (BBR), a bacteriostatic agent, merit metabolic homoeostasis. We hence conducted a randomized, double-blind, placebo-controlled trial with newly diagnosed T2D patients from 20 centres in China. Four-hundred-nine eligible participants were enroled, randomly assigned (1:1:1:1) and completed a 12-week treatment of either BBR-alone, probiotics+BBR, probiotics-alone, or placebo, after a one-week run-in of gentamycin pretreatment. The changes in glycated haemoglobin, as the primary outcome, in the probiotics+BBR (least-squares mean [95% CI], -1.04[-1.19, -0.89]%) and BBR-alone group (-0.99[-1.16, -0.83]%) were significantly greater than that in the placebo and probiotics-alone groups (-0.59[-0.75, -0.44]%, -0.53[-0.68, -0.37]%, P < 0.001). BBR treatment induced more gastrointestinal side effects. Further metagenomics and metabolomic studies found that the hypoglycaemic effect of BBR is mediated by the inhibition of DCA biotransformation by Ruminococcus bromii. Therefore, our study reports a human microbial related mechanism underlying the antidiabetic effect of BBR on T2D. (Clinicaltrial.gov Identifier: NCT02861261).
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Mixed Spices at Culinary Doses Have Prebiotic Effects in Healthy Adults: A Pilot Study.
Lu, QY, Rasmussen, AM, Yang, J, Lee, RP, Huang, J, Shao, P, Carpenter, CL, Gilbuena, I, Thames, G, Henning, SM, et al
Nutrients. 2019;11(6)
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An increasing body of evidence suggests that the gut microbiota has a profound impact on human health. While the microbiome of a healthy individual is relatively stable, gut microbial dynamics can be influenced by host lifestyle and dietary choices. The aim of this study was to investigate the effects of mixed spices (cinnamon, oregano, ginger, black pepper, and cayenne pepper) at culinary doses consumed over 2 weeks in a standardized 5g capsule on the production of gut microbiota and short-chain fatty acids The study is a randomised, placebo-controlled, double-blind pilot study carried out with a total of 31 healthy women and men aged between 18 and 65. The subjects were randomly allocated to one of the two intervention groups. Results indicate that daily intake of 5g of mixed spices for 2 weeks in healthy subjects resulted in a significant reduction in the relative abundance of the phylum Firmicutes (bacteria), and a trend of increasing in phylum Bacteroidetes (bacteria) as compared with a matched control group. Authors conclude that a mixture of spices at culinary doses affects the composition of gut microbiota.
Abstract
Spices were used as food preservatives prior to the advent of refrigeration, suggesting the possibility of effects on microbiota. Previous studies have shown prebiotic activities in animals and in vitro, but there has not been a demonstration of prebiotic or postbiotic effects at culinary doses in humans. In this randomized placebo-controlled study, we determined in twenty-nine healthy adults the effects on the gut microbiota of the consumption daily of capsules containing 5 g of mixed spices at culinary doses by comparison to a matched control group consuming a maltodextrin placebo capsule. The 16S ribosomal RNA sequencing data were used for microbial characterization. Spice consumption resulted in a significant reduction in Firmicutes abundance (p < 0.033) and a trend of enrichment in Bacteroidetes (p < 0.097) compared to placebo group. Twenty-six operational taxonomic units (OTUs) were different between the spice and placebo groups after intervention. Furthermore, there was a significant negative correlation between fecal short-chain fatty acid propionate concentration and Firmicutes abundance in spice intervention group (p < 0.04). The production of individual fecal short-chain fatty acid was not significantly changed by spice consumption in this study. Mixed spices consumption significantly modified gut microbiota, suggesting a prebiotic effect of spice consumption at culinary doses.