Your search keyword '"Holscher, Hannah D."' showing total 31 results

1. Honey Added to Yogurt with Bifidobacterium animalissubsp. lactisDN-173 010/CNCM I-2494 Supports Probiotic Enrichment but Does Not Reduce Intestinal Transit Time in Healthy Adults: A Randomized, Controlled, Crossover Trial

Author

Mysonhimer, Annemarie R, Brown, Marina D, Alvarado, David A, Cornman, Eva, Esmail, Myra, Abdiel, Tehila, Gutierrez, Karen, Vasquez, Jorge, Cannavale, Corinne N, Miller, Michael J, Khan, Naiman A, and Holscher, Hannah D

Abstract

Honey improves probiotic survival in vitro. However, if this effect translates to humans has not been investigated.

Published

2024

2. Fecal Metagenomics to Identify Biomarkers of Food Intake in Healthy Adults: Findings from Randomized, Controlled, Nutrition Trials

Author

Shinn, Leila M, Mansharamani, Aditya, Baer, David J, Novotny, Janet A, Charron, Craig S, Khan, Naiman A, Zhu, Ruoqing, and Holscher, Hannah D

Abstract

Undigested components of the human diet affect the composition and function of the microorganisms present in the gastrointestinal tract. Techniques like metagenomic analyses allow researchers to study functional capacity, thus revealing the potential of using metagenomic data for developing objective biomarkers of food intake.

Published

2024

3. Macular Pigment Optical Density and Skin Carotenoids in a Childhood Sample

Author

Cannavale, Corinne N., Keye, Shelby A., Rosok, Laura M., Martell, Shelby G., Holthaus, Tori A., Raine, Lauren R., Mullen, Sean P., Holscher, Hannah D., Hillman, Charles H., Kramer, Arthur F., Cohen, Neal J., Hammond, Billy R., Renzi-Hammond, Lisa, and Khan, Naiman A.

Abstract

Carotenoids are plant pigments with light filtering and antioxidant properties that deposit in human tissues, including retina and skin. Descriptive characteristics and covariates of carotenoid status in macula and skin have been examined in adults; however, similar studies in children are limited. Thus, this study aimed to delineate how factors of age, sex, race, weight status, and dietary carotenoid intake relate to macular and skin carotenoids in children.

Published

2023

4. Consumption of a fermented dairy beverage improves hippocampal-dependent relational memory in a randomized, controlled cross-over trial

Author

Cannavale, Corinne N., Mysonhimer, Annemarie R., Bailey, Melisa A., Cohen, Neal J., Holscher, Hannah D., and Khan, Naiman A.

Abstract

ABSTRACTObjectives:We aimed to determine whether consumption of a fermented dairy beverage containing probiotic microorganisms influences negative mood states, stress, and hippocampal memory performance in healthy adults. Methods:Adults (25-45 yrs, N = 26) free of gastrointestinal and mental illness were enrolled in a single-blind, randomized, controlled, crossover trial. Participants completed testing prior to and after 4-week consumption, with a 2–4 week washout between treatments of: (1) 8 oz of a dairy-based fermented beverage containing 25–30 billion colony forming units of live and active kefir cultures or (2) 8 oz isocaloric, non-fermented, 1% low-fat lactose-free dairy-based control beverage. Hippocampal-dependent relational memory was assessed using a spatial reconstruction task. Negative mood states of depression and anxiety were assessed using the Depression Anxiety Stress Scales-42 (DASS-42). Pooled 24-hour urine samples were analyzed using an enzyme-linked immunosorbent assay to determine urinary free-cortisol (UFC) concentrations. Fecal microbiota composition was assessed using 16S rRNA gene sequencing. Results:Lactobacilluswas increased by 235% following fermented dairy consumption compared to the control (p < .01). Furthermore, the fermented dairy beverage improved performance on two metrics of relational memory, misplacement (p = .04) and object-location binding (p = .03). UFC and DASS-42 scores (all p’s > .08) were not significantly changed by either arm of the intervention. No correlations were observed between the change in Lactobacillusand memory performance. Conclusions:Fermented dairy consumption increased the presence of certain microorganisms in the gut and improved relational memory in healthy adults. However, the benefits observed for relational memory were not related to changes in Lactobacillus.Trial registration:ClinicalTrials.gov identifier: NCT02849275.

Published

2023

5. Gastrointestinal Effects and Tolerance of Nondigestible Carbohydrate Consumption

Author

Mysonhimer, Annemarie R and Holscher, Hannah D

Abstract

Nondigestible carbohydrates (NDCs) are food components, including nonstarch polysaccharides and resistant starches. Many NDCs are classified as dietary fibers by the US FDA. Because of their beneficial effects on human health and product development, NDCs are widely used in the food supply. Although there are dietary intake recommendations for total dietary fiber, there are no such recommendations for individual NDCs. NDCs are heterogeneous in their chemical composition and physicochemical properties—characteristics that contribute to their tolerable intake levels. Guidance on tolerable intake levels of different NDCs is needed because overconsumption can lead to undesirable gastrointestinal side effects, further widening the gap between actual and suggested fiber intake levels. In this review, we synthesize the literature on gastrointestinal effects of NDCs that the FDA accepts as dietary fibers (β-glucan, pectin, arabinoxylan, guar gum, alginate, psyllium husk, inulin, fructooligosaccharides and oligofructose, galactooligosaccharides, polydextrose, cellulose, soy fiber, resistant maltodextrin/dextrin) and present tolerable intake dose recommendations for their consumption. We summarized the findings from 103 clinical trials in adults without gastrointestinal disease who reported gastrointestinal effects, including tolerance (e.g., bloating, flatulence, borborygmi/rumbling) and function (e.g., transit time, stool frequency, stool consistency). These studies provided doses ranging from 0.75–160 g/d and lasted for durations ranging from a single-meal tolerance test to 28 wk. Tolerance was NDC specific; thus, recommendations ranged from 3.75 g/d for alginate to 25 g/d for soy fiber. Future studies should address gaps in the literature by testing a wider range of NDC doses and consumption forms (solid compared with liquid). Furthermore, future investigations should also adopt a standard protocol to examine tolerance and functional outcomes across studies consistently.

Published

2022

6. Perspective: Assessing Tolerance to Nondigestible Carbohydrate Consumption

Author

Holscher, Hannah D, Chumpitazi, Bruno P, Dahl, Wendy J, Fahey, George C, Liska, DeAnn J, Slavin, Joanne L, and Verbeke, Kristin

Abstract

Human intestinal enzymes do not hydrolyze nondigestible carbohydrates (NDCs), and thus, they are not digested and absorbed in the small intestine. Instead, NDCs are partially to completely fermented by the intestinal microbiota. Select NDCs are associated with health benefits such as laxation and lowering of blood cholesterol and glucose. NDCs provide functional attributes to processed foods, including sugar or fat replacers, thickening agents, and bulking agents. Additionally, NDCs are incorporated into processed foods to increase their fiber content. Although consumption of NDCs can benefit health and contribute functional characteristics to foods, they can cause gastrointestinal symptoms, such as flatulence and bloating. As gastrointestinal symptoms negatively affect consumer well-being and their acceptance of foods containing NDC ingredients, it is crucial to consider tolerance when designing food products and testing their physiological health benefits in clinical trials. This perspective provides recommendations for the approach to assess gastrointestinal tolerance to NDCs, with a focus on study design, population criteria, intervention, comparator, and outcome. Special issues related to studies in children and implications for stakeholders are also discussed. It is recommended that the evaluation of gastrointestinal tolerance to NDCs be conducted in randomized, blinded, controlled crossover studies using standard gastrointestinal questionnaires, with attention to study participant background diets, health status, lifestyle, and medications.

Published

2022

7. Diving into dietary pattern and dietary diversity analyses

Author

Holscher, Hannah D

Published

2024

8. Dietary lutein plus zeaxanthin and choline intake is interactively associated with cognitive flexibility in middle-adulthood in adults with overweight and obesity

Author

Edwards, Caitlyn G., Walk, Anne M., Thompson, Sharon V., Reeser, Ginger E., Dilger, Ryan N., Erdman, John W., Burd, Nicholas A., Holscher, Hannah D., and Khan, Naiman A.

Abstract

ABSTRACTBackgroundThe xanthophyll carotenoids lutein+zeaxanthin and the dietary component choline have been linked to benefits in cognition. However, knowledge on the interactive influence of these dietary components on cognitive function is sparse.Design80 middle-aged adults with overweight and obesity (Body Mass Index: (BMI) ≥25.0 kg/m²), completed 7-day diet records, venous blood draws, heterochromatic flicker photometry, assessment of intelligence quotient (IQ), and a cognitive flexibility task while undergoing electroencephalographic recording for event-related potential (ERP) extraction. Multiplicative interaction terms and hierarchical linear regressions, controlling for age, BMI, sex, annual household income, and IQ were utilized to assess independent and interactive contributions of dietary and biomarker data on Switch task outcomes.ResultsHigher intake of lutein+zeaxanthin and choline was associated interactively, but not independently, with faster reaction time (RT), after controlling for pertinent covariates. Dietary intake of lutein+zeaxanthin and choline was associated with serum lutein concentrations, but not with plasma choline metabolites nor macular pigmentation. Plasma phosphatidylcholine (PC) concentrations were associated with higher accuracy in Switch trials, while no other biomarkers were associated with cognitive outcomes. Dietary intake and biomarker data were not related to the N2 nor P3 ERP component.ConclusionsAmong a sample of adults with overweight and obesity, greater intake of choline and lutein+zeaxanthin was associated with faster performance on a cognitive flexibility task. Future work examining methods of increasing consumption of both of these dietary components as a possible means of improving or maintaining cognitive flexibility among adults with overweight and obesity is therefore warranted.

Published

2022

9. The Prebiotic Potential of Inulin-Type Fructans: A Systematic Review

Author

Hughes, Riley L, Alvarado, David A, Swanson, Kelly S, and Holscher, Hannah D

Abstract

Inulin-type fructans (ITF), including short-chain fructooligosaccharides (scFOS), oligofructose, and inulin, are commonly used fibers that are widely regarded as prebiotic for their ability to be selectively utilized by the intestinal microbiota to confer a health benefit. However, to our knowledge the literature thus far lacks a thorough discussion of the evidence from human clinical trials for the prebiotic effect of ITF, including beneficial effects on intestinal microbiota composition and intestinal and extraintestinal processes (e.g., glucose homeostasis, lipids, mineral absorption and bone health, appetite and satiety, inflammation and immune function, and body composition). Additionally, there has been a lack of discussion regarding aspects such as the effect of ITF chain length on its intestinal and extraintestinal effects. The overall objective of this systematic review was to summarize the prebiotic potential of ITF based on the results of human clinical trials in healthy adult populations. Evidence from studies included in the current review suggest that ITF have a prebiotic effect on the intestinal microbiota, promoting the abundances of Bifidobacterium, Lactobacillus, and Faecalibacterium prausnitzii. Beneficial health effects reported following ITF intake include improved intestinal barrier function, improved laxation, increased insulin sensitivity, decreased triglycerides and an improved lipid profile, increased absorption of calcium and magnesium, and increased satiety. Although there is some evidence for differing effects of ITF based on chain length, the lack of direct comparisons and detailed descriptions of physicochemical properties limits the ability to draw conclusions from human clinical studies. Future research should focus on elucidating the mechanisms by which the intestinal microbiota mediates or modifies the effects of ITF on human health and the contribution of individual factors such as age and metabolic health to the movement toward personalization of prebiotic applications.

Published

2022

10. The Prebiotic Potential of Inulin-Type Fructans: A Systematic Review

Author

Hughes, Riley L, Alvarado, David A, Swanson, Kelly S, and Holscher, Hannah D

Abstract

Inulin-type fructans (ITF), including short-chain fructooligosaccharides (scFOS), oligofructose, and inulin, are commonly used fibers that are widely regarded as prebiotic for their ability to be selectively utilized by the intestinal microbiota to confer a health benefit. However, to our knowledge the literature thus far lacks a thorough discussion of the evidence from human clinical trials for the prebiotic effect of ITF, including beneficial effects on intestinal microbiota composition and intestinal and extraintestinal processes (e.g., glucose homeostasis, lipids, mineral absorption and bone health, appetite and satiety, inflammation and immune function, and body composition). Additionally, there has been a lack of discussion regarding aspects such as the effect of ITF chain length on its intestinal and extraintestinal effects. The overall objective of this systematic review was to summarize the prebiotic potential of ITF based on the results of human clinical trials in healthy adult populations. Evidence from studies included in the current review suggest that ITF have a prebiotic effect on the intestinal microbiota, promoting the abundances of Bifidobacterium, Lactobacillus, and Faecalibacterium prausnitzii. Beneficial health effects reported following ITF intake include improved intestinal barrier function, improved laxation, increased insulin sensitivity, decreased triglycerides and an improved lipid profile, increased absorption of calcium and magnesium, and increased satiety. Although there is some evidence for differing effects of ITF based on chain length, the lack of direct comparisons and detailed descriptions of physicochemical properties limits the ability to draw conclusions from human clinical studies. Future research should focus on elucidating the mechanisms by which the intestinal microbiota mediates or modifies the effects of ITF on human health and the contribution of individual factors such as age and metabolic health to the movement toward personalization of prebiotic applications.Statement of Significance: The current review provides a comprehensive synthesis of results from clinical studies in healthy human adults on the prebiotic effects of ITF on the intestinal microbiota and health, with consideration for effects of ITF chain length and individual factors such as baseline intestinal microbiota composition.

Published

2022

11. Fueling Gut Microbes: A Review of the Interaction between Diet, Exercise, and the Gut Microbiota in Athletes

Author

Hughes, Riley L and Holscher, Hannah D

Abstract

The athlete's goal is to optimize their performance. Towards this end, nutrition has been used to improve the health of athletes’ brains, bones, muscles, and cardiovascular system. However, recent research suggests that the gut and its resident microbiota may also play a role in athlete health and performance. Therefore, athletes should consider dietary strategies in the context of their potential effects on the gut microbiota, including the impact of sports-centric dietary strategies (e.g., protein supplements, carbohydrate loading) on the gut microbiota as well as the effects of gut-centric dietary strategies (e.g., probiotics, prebiotics) on performance. This review provides an overview of the interaction between diet, exercise, and the gut microbiota, focusing on dietary strategies that may impact both the gut microbiota and athletic performance. Current evidence suggests that the gut microbiota could, in theory, contribute to the effects of dietary intake on athletic performance by influencing microbial metabolite production, gastrointestinal physiology, and immune modulation. Common dietary strategies such as high protein and simple carbohydrate intake, low fiber intake, and food avoidance may adversely impact the gut microbiota and, in turn, performance. Conversely, intake of adequate dietary fiber, a variety of protein sources, and emphasis on unsaturated fats, especially omega-3 (ɷ-3) fatty acids, in addition to consumption of prebiotics, probiotics, and synbiotics, have shown promising results in optimizing athlete health and performance. Ultimately, while this is an emerging and promising area of research, more studies are needed that incorporate, control, and manipulate all 3 of these elements (i.e., diet, exercise, and gut microbiome) to provide recommendations for athletes on how to “fuel their microbes.”Statement of Significance: This review provides a comprehensive evaluation of the current evidence for the effects of diet, as it pertains to athletic performance, on the gut microbiota, and the potential for the gut microbiota to impact athletic performance as a result of diet-induced modifications.

Published

2021

12. Fueling Gut Microbes: A Review of the Interaction between Diet, Exercise, and the Gut Microbiota in Athletes

Author

Hughes, Riley L and Holscher, Hannah D

Abstract

The athlete's goal is to optimize their performance. Towards this end, nutrition has been used to improve the health of athletes' brains, bones, muscles, and cardiovascular system. However, recent research suggests that the gut and its resident microbiota may also play a role in athlete health and performance. Therefore, athletes should consider dietary strategies in the context of their potential effects on the gut microbiota, including the impact of sports-centric dietary strategies (e.g., protein supplements, carbohydrate loading) on the gut microbiota as well as the effects of gut-centric dietary strategies (e.g., probiotics, prebiotics) on performance. This review provides an overview of the interaction between diet, exercise, and the gut microbiota, focusing on dietary strategies that may impact both the gut microbiota and athletic performance. Current evidence suggests that the gut microbiota could, in theory, contribute to the effects of dietary intake on athletic performance by influencing microbial metabolite production, gastrointestinal physiology, and immune modulation. Common dietary strategies such as high protein and simple carbohydrate intake, low fiber intake, and food avoidance may adversely impact the gut microbiota and, in turn, performance. Conversely, intake of adequate dietary fiber, a variety of protein sources, and emphasis on unsaturated fats, especially omega-3 (ɷ-3) fatty acids, in addition to consumption of prebiotics, probiotics, and synbiotics, have shown promising results in optimizing athlete health and performance. Ultimately, while this is an emerging and promising area of research, more studies are needed that incorporate, control, and manipulate all 3 of these elements (i.e., diet, exercise, and gut microbiome) to provide recommendations for athletes on how to “fuel their microbes.”

Published

2021

13. The relationships between prolonged sedentary time, physical activity, cognitive control, and P3 in adults with overweight and obesity

Author

Pindus, Dominika M., Edwards, Caitlyn G., Walk, Anne M., Reeser, Ginger, Burd, Nicholas A., Holscher, Hannah D., and Khan, Naiman A.

Abstract

Background/objectives: To assess the relationships between daily sedentary time (ST), prolonged ST, moderate-to-vigorous physical activity (MVPA), and behavioral and neuroelectric indices of cognitive control in adults with overweight and obesity (OW/OB). Subjects/methods: A cross-sectional design was used. Overall, 89 adults (BMI = 31.9 ± 4.9 kg/m2) provided measures of ST, prolonged ST (i.e., ST accumulated in ≥20 min), and MVPA from a hip-worn accelerometer worn over 7 days. Inhibitory control was measured with a modified Eriksen flanker task and cognitive flexibility with task switching. The amplitude and the latency of the P3 component of event-related potentials during each task were used as measures of attentional resource allocation and information processing speed, respectively. Results: After adjusting for ST and MVPA, prolonged ST was related to greater interference (i.e., a larger decrement in accuracy between congruent and incongruent trials of the flanker task) indicative of a specific relationship between prolonged ST and poorer inhibitory control. Before adjusting for ST, MVPA was related to a smaller Global Switch Cost expressed as larger (more positive) amplitude of the P3 difference wave (mixed-task minus single-task condition of the switch task). Adjustment for ST attenuated this association to non-significance. Conclusions: Our findings suggest that future interventions focused on improving inhibitory control in adults with OW/OB should target restructuring ST in addition to current efforts to increase MVPA.

Published

2021

14. Dietary choline is related to neural efficiency during a selective attention task among middle-aged adults with overweight and obesity

Author

Edwards, Caitlyn G., Walk, Anne M., Cannavale, Corinne N., Flemming, Isabel R., Thompson, Sharon V., Reeser, Ginger R., Holscher, Hannah D., and Khan, Naiman A.

Abstract

ABSTRACTObjectives:Obesity is associated with poorer brain health and cognitive function. However, it is not clear whether specific dietary factors may provide neuroprotective effects among individuals with overweight and obesity. The aim of this study was to examine the impact of choline intake on neurophysiological markers of attentional control among young and middle-aged adults with overweight or obesity.Methods:146 adults with BMI ≥25 kg/m2(34.0 ± 5.9 years, 57 males) participated in the study. Behavioral performance (accuracy and reaction time) and neuroelectric indices (event-related brain potentials [ERPs]) of attentional inhibition were assessed during a Flanker task. Specifically, the amplitude and latency of the P3 waveform in a central-parietal region of interest (ROI) were used to index attentional resource allocation and information processing speed, respectively. Choline intake and overall diet quality (Healthy Eating Index [HEI-2015]) were assessed using 7-day diet records. Intelligence Quotient was assessed using the Kaufman-Brief Intelligence Test. Regression analyses were conducted to examine the relationship between habitual dietary choline intake and cognitive outcomes following adjustment of demographic factors, IQ, HEI-2015, and BMI.Results:Choline intake was selectively associated with a lower peak amplitude of the P300 waveform during incongruent trials (β = −0.25, p = <0.01). No significant relationships were observed for accuracy or reaction time.Discussion:Higher choline intake is associated with more efficient neural processing among adults with overweight and obesity. Intervention are necessary to determine whether choline consumption provides neuroprotective effects for executive function among individuals with elevated weight status.

Published

2021

15. Associations among diet, the gastrointestinal microbiota, and negative emotional states in adults

Author

Taylor, Andrew M., Thompson, Sharon V., Edwards, Caitlyn G., Musaad, Salma M.A., Khan, Naiman A., and Holscher, Hannah D.

Abstract

ABSTRACTObjective:Habitual diet impacts mood and the human gastrointestinal (GI) microbiota. Yet, studies infrequently control for diet when evaluating associations between mood and GI microbiota. Accordingly, we aimed to investigate relationships among diet, GI microbiota, and mood in adults without mood disorders by conducting a cross-sectional examination of dietary intake, subjective emotional state, and fecal microbial taxa abundances.Methods:Adults (N = 133; 25–45 years of age) without physician-diagnosed mood disorders were studied. Fecal DNA was extracted, and the V4 region of the 16S rRNA gene was sequenced. Sequences were analyzed using QIIME2. Subjective mood state was assessed using the 42-item Depression, Anxiety, and Stress Scale (DASS-42). Habitual dietary intake was measured with the National Cancer Institute's Diet History Questionnaire II, and diet quality was evaluated with the 2010 Healthy Eating Index (HEI).Results:Relationships were observed between 28 bacterial taxa and DASS-42 scores. Sex-dependent associations were observed among 21 bacterial taxa and DASS-42 scores, including an inverse relationship between Anxiety scale scores and Bifidobacteriumin females and an inverse relationship between Depression scale scores and Lactobacillusin males. HEI total fruit and dairy components were inversely associated with Depression and Stress scales, respectively.Conclusions:These results suggest GI microbes are related to mood in adults without diagnosed mood disorders and that these relationships differ by sex and are influenced by dietary fiber intake. Incorporating dietary intake data in gut-microbiota-brain studies may help clarify the roles of specific microbes and dietary components in mental health symptoms.

Published

2020

16. The International Scientific Association for Probiotics and Prebiotics (ISAPP) consensus statement on the definition and scope of synbiotics

Author

Swanson, Kelly S., Gibson, Glenn R., Hutkins, Robert, Reimer, Raylene A., Reid, Gregor, Verbeke, Kristin, Scott, Karen P., Holscher, Hannah D., Azad, Meghan B., Delzenne, Nathalie M., and Sanders, Mary Ellen

Abstract

In May 2019, the International Scientific Association for Probiotics and Prebiotics (ISAPP) convened a panel of nutritionists, physiologists and microbiologists to review the definition and scope of synbiotics. The panel updated the definition of a synbiotic to “a mixture comprising live microorganisms and substrate(s) selectively utilized by host microorganisms that confers a health benefit on the host”. The panel concluded that defining synbiotics as simply a mixture of probiotics and prebiotics could suppress the innovation of synbiotics that are designed to function cooperatively. Requiring that each component must meet the evidence and dose requirements for probiotics and prebiotics individually could also present an obstacle. Rather, the panel clarified that a complementary synbiotic, which has not been designed so that its component parts function cooperatively, must be composed of a probiotic plus a prebiotic, whereas a synergistic synbiotic does not need to be so. A synergistic synbiotic is a synbiotic for which the substrate is designed to be selectively utilized by the co-administered microorganisms. This Consensus Statement further explores the levels of evidence (existing and required), safety, effects upon targets and implications for stakeholders of the synbiotic concept.

Published

2020

17. A review of dietary and microbial connections to depression, anxiety, and stress

Author

Taylor, Andrew M. and Holscher, Hannah D.

Abstract

Objective:Pre-clinical evidence suggests that the gastrointestinal microbiota contributes to mood and behavior disorders. Among humans, diet quality and patterns, which also impact the gastrointestinal microbiota, have been linked to depression, anxiety, and stress. This review summarizes findings from clinical studies using dietary intervention to improve depression, anxiety, or stress and the role the gastrointestinal microbiota may have in these disorders.Methods:A literature search was conducted using the keywords microbiome, microbiota, depression, anxiety, stress, diet, dietary pattern, diet quality, fiber, prebiotics, probiotics, and mood.Results:Mood was improved by enhancing diet quality. Fructooligosaccharide and galactooligosaccharide improved anxiety and depression in participants consuming ≥ 5 g/day. Additionally, bifidobacteria were enriched in subjects consuming ≥ 5 g/day. Probiotic consumption improved psychological or biological measures of depression, anxiety, or stress in individuals predisposed to a mood disorder. Probiotics suppressed biological markers of stress in healthy individuals in a strain-dependent manner.Discussion:High-quality diets, prebiotics, and probiotics may beneficially affect mood. Habitual diets rich in dietary fiber and omega-3-polyunsaturated fatty acids may be linked to reduced risk of developing symptoms of depression, anxiety, and stress; however, additional studies are necessary. Certain probiotics may enhance mood, but their influence on the gastrointestinal microbiota requires further investigation.

Published

2020

18. Effect of Road Transport on the Equine Cecal Microbiota.

Author

Perry, Erin, Cross, Tzu-Wen L., Francis, Jesse M., Holscher, Hannah D., Clark, Stephanie D., and Swanson, Kelly S.

Abstract

The effects of travel stress on the equine cecal microbiota are poorly understood. We hypothesized that travel would affect the equine cecal microbiota. Cecally-cannulated horses (n = 6) were randomly assigned to one of two groups, travel (n = 3) and control (n = 3). Horses received a basal diet (Strategy, Purina Animal Nutrition) with 1.2% body weight mixed grass/alfalfa. Travel horses were transported to an unfamiliar location, stalled to simulate weekend horse show conditions, and then returned to the Southern Illinois University Equine Center. Control horses remained at the equine center for the entire study. Cecal fluid was collected on a 6-hour rotating schedule, four times daily throughout the 6-day study. Data were analyzed using mixed models in SAS with P < .05. Cecal bacterial DNA was extracted, followed by 16S RNA sequencing and then analyzed using QIIME 1.8.0. Averages of sequence data were reported by phase (baseline, transportation, post-travel). Although there were no effects of travel associated with β-diversity ( P > .05), analysis of α-diversity measures indicated an effect within the travel group during the transportation phase as compared with baseline ( P < .05). Interestingly, α-diversity was also affected for control horses in the return phase when compared to baseline. This may be due to the disruption of the return of the travel group. In addition, we identified multiple taxa affected by travel at both the genus and phylum level. Continued profiling of equine gastrointestinal microbiota is necessary to improve our understanding of equine microbial dysbiosis. [ABSTRACT FROM AUTHOR]

Published

2018

19. Microbiota-Focused Dietary Approaches to Support Health: A Systematic Review

Author

Hindle, Veronica K., Veasley, Nadine M., and Holscher, Hannah D.

Abstract

Diet affects the intestinal microbiota. Increasingly, research is linking the intestinal microbiota to various human health outcomes. Consumption of traditional prebiotics (inulin, fructooligosaccharides, and galactooligosaccharides) confers health benefits through substrate utilization by select intestinal microorganisms, namely Bifidobacteriumand Lactobacilli. A similar but distinct concept focused on microorganisms to support human health is through direct consumption of certain live microorganisms recognized as probiotics, which classically include Lactobacilli or Bifidobacteriumstrains. With advances in sequencing technologies and culturing techniques, other novel functional intestinal microorganisms are being increasingly identified and studied to determine how they may underpin human health benefits. These novel microorganisms are targeted for enrichment within the autochthonous intestinal microbiota through dietary approaches and are also gaining interest as next-generation probiotics because of their purported beneficial properties. Thus, characterizing dietary approaches that nourish select microorganisms in situis necessary to propel biotic-focused research forward. As such, we reviewed the literature to summarize findings on dietary approaches that nourish the human intestinal microbiota and benefit health to help fill the gap in knowledge on the connections between certain microorganisms, the metabolome, and host physiology. The overall objective of this systematic review was to summarize the impact of dietary interventions with the propensity to nourish certain intestinal bacteria, affect microbial metabolite concentrations, and support gastrointestinal, metabolic, and cognitive health in healthy adults. Findings from the 17 randomized controlled studies identified in this systematic review indicated that dietary interventions providing dietary fibers, phytonutrients, or unsaturated fatty acids differentially enriched Akkermansia, Bacteroides, Clostridium, Eubacterium, Faecalibacterium, Roseburia, and Ruminococcus, with variable effects on microbial metabolites, and subsequent associations with physiological markers of gastrointestinal and metabolic health. These findings have implications for biotic-focused research on candidate prebiotic substrates as well as next-generation probiotics.

Published

2024

20. The Evolution of Science and Regulation of Dietary Supplements: Past, Present, and Future

Author

Coates, Paul M, Bailey, Regan L, Blumberg, Jeffrey B, El-Sohemy, Ahmed, Floyd, Elizabeth, Goldenberg, Joshua Z, Gould Shunney, Aimée, Holscher, Hannah D, Nkrumah-Elie, Yasmeen, Rai, Deshanie, Ritz, Barry W, and Weber, Wendy J

Abstract

Dietary supplement use in the United States is widespread and increasing, especially among certain population groups, such as older Americans. The science surrounding dietary supplements has evolved substantially over the last few decades since their formal regulation in 1994. Much has been learned about the mechanisms of action of many dietary supplement ingredients, but the evidence on their health effects is still building. As is true of much nutrition research, there are many studies that point to health effects, but not all are at the level of scientific evidence (e.g., randomized controlled interventions), rigor, or quality needed for definitive statements of efficacy regarding clinical end points. New technologies and approaches are being applied to the science of dietary supplements, including nutrigenomics and microbiome analysis, data science, artificial intelligence (AI), and machine learning—all of which can elevate the science behind dietary supplements. Products can contain an array of bioactive compounds derived from foods as well as from medicinal plants, which creates enormous challenges in data collection and management. Clinical applications, particularly those aimed at providing personalized nutrition options for patients, have become more sophisticated as dietary supplements are incorporated increasingly into clinical practice and self-care. The goals of this article are to provide historical context for the regulation and science of dietary supplements, identify research resources, and suggest some future directions for science in this field.

Published

2024

21. Honey varietals differentially impact Bifidobacterium animalisssp lactissurvivability in yogurt through simulated in vitrodigestion

Author

Alvarado, David A., Ibarra-Sánchez, Luis Alberto, Mysonhimer, Annemarie R., Khan, Tauseef A., Cao, Rong, Miller, Michael J., and Holscher, Hannah D.

Abstract

Bifidobacterium animalis ssp. lactisDN-173 010/CNCM I-2494 (B. animalis) is a probiotic strain commonly added to yogurt. Yogurt and honey are a popular culinary pairing. Honey improves bifidobacteria survival in vitro. However, probiotic survival in yogurt with honey during in vitrodigestion has not been investigated.

Published

2024

22. Let's do the math: embracing mathematical modeling to advance nutrition research

Author

Holscher, Hannah D.

Published

2023

23. Effects of Feeding Management on the Equine Cecal Microbiota.

Author

Venable, Erin B., Fenton, Kelby A., Braner, Victoria M., Reddington, Catriona E., Halpin, Michael J., Heitz, Sarah A., Francis, Jesse M., Gulson, Natalie A., Goyer, Cassandra L., Bland, Stephanie D., Cross, Tzu-Wen L., Holscher, Hannah D., and Swanson, Kelly S.

Abstract

The effects of meal size and frequency on equine cecal microbiota are not well documented. We hypothesized that changes in feeding management (including differing meal size and frequency) would alter the equine cecal microbiota. Cecally cannulated horses (n = 6) were utilized in a 3 × 3 Latin square where they received group pasture turnout daily and were stalled overnight in box stalls (3 × 4 m). Treatment diets consisted of Strategy ® concentrate and were as follows: A = one meal, 2.72 kg, 6 AM; B = two meals, 1.36 kg/meal, 6 AM and 4 PM; and C = three meals, 0.91 kg/meal, 6 AM, 12 PM, and 4 PM. Treatment periods consisted of 8 days of acclimation followed by 3 days of collection. All horses received ad libitum access to water, a white salt block, and 3 kg of mixed alfalfa/grass hay offered overnight. Cecal samples were sequenced using 16S rRNA gene-based Illumina technology. Data were analyzed using QIIME 1.8.0 and Proc MIXED of SAS. Weighted principal coordinates analysis values indicated that feeding management impacted cecal microbiota composition with horses fed one large meal having different microbial community than those fed three smaller meals throughout the day ( P = .028). Furthermore, treatment affected ( P < .05) Prevotella, YRC22, Lactobacillus, Streptococcus, Coprococcus , and Phascolarctobacterium . These data demonstrate that feeding a single large bolus meal affects both abundance and composition of the cecal microbiota. Further research is necessary to understand the metabolic and/or health implications related to changes the equine cecal microbiota. [ABSTRACT FROM AUTHOR]

Published

2017

24. Microbiome-Mediated Effects of the Mediterranean Diet on Inflammation

Author

Bailey, Melisa A and Holscher, Hannah D

Abstract

The Mediterranean diet pattern is increasingly associated with improved metabolic health. Two mechanisms by which consuming a Mediterranean diet pattern may contribute to improved metabolic health are modulation of the gastrointestinal (GI) microbiota and reduction of metabolic endotoxemia. Metabolic endotoxemia, defined as a 2- to 3-fold increase in circulating levels of bacterial endotoxin, has been proposed as a cause of inflammation during metabolic dysfunction. As the largest source of endotoxins in the human body, the GI microbiota represents a crucial area for research on strategies for reducing endotoxemia. Diets high in saturated fat and low in fiber contribute to metabolic endotoxemia through several mechanisms, including changes in the GI microbiome and bacterial fermentation end products, intestinal physiology and barrier function, and enterohepatic circulation of bile acids. Thus, the Mediterranean diet pattern, rich in unsaturated fats and fiber, may be one dietary strategy to reduce metabolic endotoxemia. Preclinical studies have demonstrated the differential effects of dietary saturated and unsaturated fats on the microbiota and metabolic health, but human studies are lacking. The role of dietary fiber and the GI microbiome in metabolic endotoxemia is underinvestigated. Clinical research on the effects of different types of dietary fat and fiber on the GI microbiota and GI and systemic inflammation is necessary to determine efficacious dietary strategies for reducing metabolic endotoxemia, inflammation, and subsequent metabolic disease.

Published

2018

25. Dietary fiber and prebiotics and the gastrointestinal microbiota

Author

Holscher, Hannah D.

Abstract

ABSTRACTThe gastrointestinal microbiota has an important role in human health, and there is increasing interest in utilizing dietary approaches to modulate the composition and metabolic function of the microbial communities that colonize the gastrointestinal tract to improve health, and prevent or treat disease. One dietary strategy for modulating the microbiota is consumption of dietary fiber and prebiotics that can be metabolized by microbes in the gastrointestinal tract. Human alimentary enzymes are not able to digest most complex carbohydrates and plant polysaccharides. Instead, these polysaccharides are metabolized by microbes which generate short-chain fatty acids (SCFAs), including acetate, propionate, and butyrate. This article reviews the current knowledge of the impact of fiber and prebiotic consumption on the composition and metabolic function of the human gastrointestinal microbiota, including the effects of physiochemical properties of complex carbohydrates, adequate intake and treatment dosages, and the phenotypic responses related to the composition of the human microbiota.

Published

2017

26. Human Milk Oligosaccharides Influence Intestinal Epithelial Cell Maturation In Vitro

Author

Holscher, Hannah D., Bode, Lars, and Tappenden, Kelly A.

Abstract

Human milk oligosaccharides (HMOs) are reported to promote epithelial cell differentiation in vitro. The aim of the present study was to assess induction of epithelial cell differentiation by individual and combined administration of 3 HMOs. An in vitro epithelial model of the crypt-villus axis consisting of preconfluent HT-29, preconfluent Caco-2Bbe, and postconfluent Caco-2Bbe cells was used. Cultures were randomized to 17 treatments for 72 hours of incubation: low- and high-dose HMOs (3'sialyllactose [3'SL] at 0.2 and 1.0 g/L, 6'siallylactose [6'SL] at 0.4 and 1.0 g/L, and 2'fucosyllactose at 0.2 and 2.0 g/L), HMO combinations at both low and high doses, and controls (culture medium, 4 g/L pooled HMO, and lipopolysaccharide). High doses of individual HMOs (P< 0.05), combined HMOs (P< 0.05), and pooled HMO decreased (P< 0.001) proliferation in preconfluent HT-29 cultures. Pooled means of individual low and high treatments with 3'SL and 6'SL, combinations of 2 or 3 high-dose HMOs, and total HMO significantly reduced (P< 0.05) proliferation in preconfluent Caco-2Bbe cells. HMOs increased differentiation in preconfluent HT-29 and Caco-2Bbe cells. 3'SL and 6'SL increased alkaline phosphatase activity but did not affect disaccharidase activity in postconfluent Caco-2Bbe cells. Apoptosis and necrosis were both decreased (P< 0.001) in postconfluent Caco-2Bbe cells treated with pooled HMO. HMO treatments inhibited proliferation with some associated enhancement of epithelial differentiation. Effects of HMOs were additive but no specific combinations of HMOs were especially potent. These results suggest that commercially viable individual HMOs and specific combinations may promote intestinal epithelial cell maturation.

Published

2017

27. Human Milk Oligosaccharides Influence Intestinal Epithelial Cell Maturation In Vitro

Author

Holscher, Hannah D., Bode, Lars, and Tappenden, Kelly A.

Abstract

Supplemental Digital Content is available in the text

Published

2017

28. Prebiotic Consumption Alters Microbiota but Not Biological Markers of Stress and Inflammation or Mental Health Symptoms in Healthy Adults: A Randomized, Controlled, Crossover Trial

Author

Mysonhimer, Annemarie R., Cannavale, Corinne N., Bailey, Melisa A., Khan, Naiman A., and Holscher, Hannah D.

Abstract

Chronic stress contributes to systemic inflammation and diminished mental health. While animal work suggests strong links with the microbiota-gut-brain axis, clinical trials investigating the effectiveness of prebiotics in improving mental health and reducing inflammation are lacking.

Published

2023

29. Diet Quality and the Fecal Microbiota in Adults in the American Gut Project

Author

Baldeon, Alexis D, McDonald, Daniel, Gonzalez, Antonio, Knight, Rob, and Holscher, Hannah D

Abstract

The Dietary Guidelines for Americans advise on dietary intake to meet nutritional needs, promote health, and prevent disease. Diet affects the intestinal microbiota and is increasingly linked to health. It is vital to investigate the relations between diet quality and the microbiota to better understand the impact of nutrition on human health.

Published

2023

30. Su2009 - Gut Microbiota: Predictor of Success in a Comprehensive of Lifestyle Modification Program for Obesity.

Author

Allen, Jacob M., Nehra, Vandana, Mailing, Lucy, Holscher, Hannah D., Van Dyke, Carol T., Edens, Kim, Swanson, Kelly S., Boardman, Lisa A., Jensen, Michael D., Murray, Joseph A., and Woods, Jeffrey

Published

2017

31. Sa2006 Evolving Composition of the Human Intestinal Microbiota Following Fecal Transplantation.

Author

Farrell, John J., Martin, Daniel, Bogner, Anna, Thompson, Sharon V., Taylor, Andrew M., Swanson, Kelly S., and Holscher, Hannah D.

Published

2016