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512 results on '"Anthony, Ryan"'

1. Compare the Pair: Rotated vs. Unrotated Surface Codes at Equal Logical Error Rates

Author

O'Rourke, Anthony Ryan and Devitt, Simon

Subjects
Quantum Physics
Abstract

Practical quantum computers will require resource-efficient error-correcting codes. The rotated surface code uses approximately half the number of qubits as the unrotated surface code to create a logical qubit with the same error-correcting distance. However, instead of distance, a more useful qubit-saving metric would be based on logical error rates. In this work we find the well-below-threshold scaling of logical to physical error rates under circuit-level noise for both codes at high odd and even distances, then compare the number of qubits used by each code to achieve equal logical error rates. We perform Monte Carlo sampling of memory experiment circuits with all valid CNOT orders, using the stabiliser simulator Stim and the uncorrelated minimum-weight perfect-matching decoder PyMatching 2. We find that the rotated code uses $74 - 75\%$ the number of qubits used by the unrotated code, depending on the noise model, to achieve a logical error rate of $p_L = 10^{-12}$ at the operational physical error rate of $p=10^{-3}$. The ratio remains $\approx75\%$ for physical error rates within a factor of two of $p=10^{-3}$ for all useful logical error rates. Our work finds the low-$p_L$ scaling of the surface code and clarifies the qubit savings provided by the rotated surface code, providing numerical justification for its use in future implementations of the surface code., Comment: 12 pages, 9 figures, Supplementary Figures. Data and code available at https://github.com/wamud/compare_the_pair

Published
2024

2. Somatic cell count as an indicator of subclinical mastitis and increased inflammatory response in asymptomatic lactating women

Author

Angeliki Angelopoulou, Hugh M. B. Harris, Alicja K. Warda, Carol-Anne O'Shea, Aonghus Lavelle, C. Anthony Ryan, Eugene Dempsey, Catherine Stanton, Colin Hill, and R. Paul Ross

Subjects
subclinical mastitis, clinical mastitis, somatic cells, somatic cell counts, breastfeeding, breast milk, Microbiology, QR1-502
Abstract

ABSTRACT Subclinical mastitis is an asymptomatic inflammatory condition that can be difficult to define and diagnose. In the dairy industry, subclinical mastitis is diagnosed by milk somatic cell counts (SCCs) of ≥250,000 cells mL−1. In this pilot study, we assessed the efficacy of this index to identify human subclinical mastitis by comparing SCC levels with the inflammatory response [interleukin-8 (IL-8) levels] in 37 samples from asymptomatic and 10 clinical mastitis (CM) lactating women. The milk microbiota was determined by 16S rRNA gene sequencing. The SCC of CM samples ranged from 310,000 to 6,600,000 cells mL−1. However, 14 of 37 (37.8%) asymptomatic samples had high SCC (250,000–460,000 cells mL−1), indicating subclinical mastitis. SCC levels significantly (P < 0.001) and positively correlated with milk IL-8 levels reflecting the escalating inflammatory response across subclinical and clinical mastitis samples. Samples with an SCC of ≥250,000 cells mL−1 showed significant increases in IL-8 responses when compared with milk samples from healthy women. The milk microbiome of CM samples was dominated by streptococcal and staphylococcal species (89.9% combined median relative abundance). In contrast, the combined median streptococcal/staphylococcal relative levels were 75.4% and 66.3% in milks from asymptomatic (subclinical mastitis) and healthy groups, respectively. The Streptococcus genus was increased in samples with an SCC of ≥250,000, although this should be interpreted with caution. Thus, the index of ≥250,000 somatic cells mL−1 could be a reliable indicator of subclinical mastitis in humans and should aid future studies investigating the impact of subclinical mastitis on maternal health, breastfeeding behaviors, infant health, and development.IMPORTANCEThis pilot study suggests that SCC at a level of (greater than or equal to) 250,000 cells mL−1, as used in the dairy industry, is a suitable index to identify asymptomatic subclinical mastitis in lactating women since it reflects a significant increase in the inflammatory response compared to milk samples from healthy women. Using this index should aid studies into the short- and long-term consequences of subclinical mastitis for mother and infant.

Published
2024
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5. Omega-3 Status Evaluation in Australian Female Rugby League Athletes: Ad Libitum Fish Oil Provision Results in a Varied Omega-3 Index.

Author

Anthony, Ryan, Jaffrey, Nicola, Byron, Caitlin, Peoples, Gregory E., and Macartney, Michael J.

Subjects
*RUGBY football, *PATIENT compliance, *RESEARCH funding, *ARACHIDONIC acid, *OMEGA-3 fatty acids, *EICOSAPENTAENOIC acid, *BLOOD collection, *FISH oils, *SPORTS events, *CONFIDENCE intervals, *DRUGS
Abstract

Optimal omega-3 status, influenced by increased intake of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), is vital for physiological health. This study investigated the impact of ad libitum fish oil supplementation on the omega-3 status of female athletes in a professional rugby league team during a competitive season. Twenty-four (n = 24) athletes participated, and their omega-3 status was assessed using the Omega-3 Index (O3I) and arachidonic acid (AA) to EPA ratio through finger-prick blood samples taken at the start and end of the season. They were given access to a fish oil supplement (PILLAR Performance, Australia) with a recommended daily dose of four capsules per day (2,160 mg EPA and 1,440 mg docosahexaenoic acid). At the beginning of the season, the group mean O3I was 4.77% (95% confidence interval [CI: 4.50, 5.04]) and the AA to EPA ratio was 14.89 (95% CI [13.22, 16.55]). None of the athletes had an O3I exceeding 8%. By the season's end, the O3I was a significantly increased to 7.28% (95% CI [6.64, 7.93], p <.0001) and AA to EPA ratio significantly decreased to a mean of 6.67 (95% CI [5.02, 8.31], p <.0001), driven primarily by the significant increase in EPA of +1.14% (95% CI [0.77, 1.51], p <.0001). However, these changes were varied between the athletes and most likely due to compliance. This study has demonstrated that using the objective O3I feedback scale is possible with elite female rugby athletes, but individual strategies will be required to achieve daily intake targets of EPA + DHA. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Treating Tobacco Dependency in National Health Service Workers in Greater Manchester: An Evaluation of a Bespoke Digital Service

Author

Kavita Sivabalah, MB BCh BAO, MRCP (UK), David Crane, PhD, Samantha Neville, Mandy Hancock, MSc, Anthony Ryan, Bincy Ajay, Jane Coyne, BA, Elizabeth Benbow, Andrea Crossfield, MSc, Sebastian Bate, MMath, and Matthew Evison, MD

Subjects
Smoking cessation, Treating tobacco dependency, Nicotine replacement therapy, Vapes, Abstinence from smoking, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Introduction: Treating tobacco dependency in National Health Service (NHS) workers delivers substantial benefits at an individual, population, and health care system level. We report the outcomes from the Greater Manchester Integrated Care Partnership’s tobacco dependency treatment program for NHS workers which includes 6-months’ access to behavioral support and 12 weeks of treatment through a digital application. Methods: Aggregate results for all participants across the program from January 1, 2022, to September 1, 2023, are reported including a deep-dive evaluation of 300 participants recruited to provide chemically validated outcomes. Results: A total of 1567 NHS workers participated in the program within the evaluation period, completing 24,048 sessions with specialist advisors within the application, ordering 18,710 nicotine vape liquids, 6927 nicotine patches, and 297 short-acting nicotine products. Users reported achieving 89,464 smoke-free days, 1,258,069 less cigarettes smoked, and a financial saving of £622,231. The deep-dive evaluation revealed a CO-verified 12-week abstinence rate of 37% (111 of 300). Conclusion: This evaluation provides assurance of clinical effectiveness within a bespoke digital tobacco dependency treatment program for NHS workers across an Integrated Care Partnership.

Published
2024
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7. Exposing Pharmacy Residents to Implementation Science

Author

Anthony Ryan Pinto and Arinze Nkemdirim Okere

Subjects
Pharmacy Residencies, Implementation Science, Pharmacy and materia medica, RS1-441
Abstract

The American Society of Health-System Pharmacists (ASHP) aims to improve patient care by innovating pharmacy practices. ASHP-accredited pharmacy residencies require projects that enhance pharmacy practice, focusing on effective project management and quality improvement. However, only a few of these innovations smoothly become part of routine clinical practice. One solution worth exploring involves teaching Implementation Science in residencies. Exposing residents and mentors to Implementation Science offers two main benefits. Firstly, it helps learn from failed interventions by considering alternative thoughts and grasping environmental influences, leading to smarter decisions in future implementations. Secondly, applying implementation science improves patient care by turning evidence-based practices into practical actions, ensuring better care, consistency across healthcare setups, fewer errors, and tailoring innovative services to specific institutional needs. Exposing pharmacy residents to implementation science pushes forward pharmacy practice by actively applying evidence-based innovations in broader pharmacy or clinical practice.

Published
2024
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9. Altered oral microbiome in Sudanese Toombak smokeless tobacco users carries a newly emerging risk of squamous cell carcinoma development and progression

Author

Amel Sami, Imad Elimairi, C. Anthony Ryan, Catherine Stanton, Dhrati Patangia, and R. Paul Ross

Subjects
Medicine, Science
Abstract

Abstract There are an estimated 6–10 million smokeless tobacco (Toombak) users in Sudan, the majority being males. Toombak is known to be a carcinogenic product that is likely to modify the oral microbiome spatiality into a high-risk potential for the development and progression of oral cancer, but previous studies are lacking in this field. Here, we endeavour for the first time the exploration of the oral microbiome in key mucosal areas of the oral cavity and assess the microbiome variations in premalignant and oral squamous cell carcinoma (OSCC) samples from both users and non-users of Toombak. 16S rRNA sequencing was performed on DNA obtained from pooled saliva, oral mucosa and supragingival plaque from 78 Sudanese users and non-users of Toombak, aged between 20 and 70 years. In 32 of the pooled saliva samples, the mycobiome (fungal) environment was analysed through ITS sequencing. Then, 46 formalin-fixed paraffin-embedded samples of premalignant and OSCC samples were collected, and their associated microbiomes sequenced. The oral Sudanese microbiome was found to be enriched in Streptococcaceae, but Staphylococcaceae were significantly more abundant amongst Toombak users. Genera enriched in the oral cavity of Toombak users included Corynebacterium_1 and Cardiobacterium while in non-users, Prevotella, Lactobacillus and Bifidobacterium were prominent. Aspergillus was the most abundant fungus in the mouths of Toombak users with a marked loss of Candida. The genus Corynebacterium_1 was abundant in the buccal, floor of the mouth and saliva microbiomes as well as in oral cancer samples from Toombak users indicating a possible role for this genus in the early stages of oral cancer development. An oral cancer microbiome that favours poor survival and metastasis in those who use Toombak also emerged that includes the genera Stenotrophomonas and Schlegelella. Those utilising Toombak carry an altered oral microbiome that may be an additional risk factor for this products carcinogenicity to the oral structures. These significant microbiome modulations are a newly emerging key driving factor in oral cancer development and progression in Toombak users while it is also shown that Toombak users carry an oral cancer microbiome that may increase the potential for a poorer prognosis.

Published
2023
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11. The human milk microbiome aligns with lactation stage and not birth mode

Author

Katriona E. Lyons, Carol-Anne O.’ Shea, Ghjuvan Grimaud, C. Anthony Ryan, Eugene Dempsey, Alan L. Kelly, R. Paul Ross, and Catherine Stanton

Subjects
Medicine, Science
Abstract

Abstract We analysed the human milk microbiome in a cohort of 80 lactating women and followed the dynamics in taxa over the course of lactation from birth to 6 months. Two hundred and thirty one milk samples were collected from full-term lactating women at 1, 4, 8 and 24 weeks following birth and analysed for microbiota composition using 16S rRNA sequencing. A significant decrease in milk microbiota diversity was observed throughout the first 6 months of lactation, with the greatest difference seen between week 8 and week 24. Nine genera predominated in milk over lactation from week 1 to week 24, comprising of Staphylococcus, Streptococcus, Pseudomonas, Acinetobacter, Bifidobacterium, Mesorhizobium, Brevundimonas, Flavobacterium, and Rhodococcus; however, fluctuations in these core genera were apparent over time. There was a significant effect of stage of lactation on the microbiome, while no effect of birth mode, infant sex and maternal BMI was observed throughout lactation. Streptococcus had the highest mean relative abundance at week 1 and 24 (17.3% and 24% respectively), whereas Pseudomonas predominated at week 4 (22%) and week 8 (19%). Bifidobacterium and Lactobacillus had the highest mean relative abundance at week 4 (5% and 1.4% respectively), and occurred at a relative abundance of ≤ 1% at all other time points. A decrease in milk microbiota diversity throughout lactation was also observed. This study concluded that lactation stage was the primary driving factor in milk microbiota compositional changes over lactation from birth to 6 months, while mode of delivery was not a factor driving compositional changes throughout human lactation.

Published
2022
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13. Cross-sectional observational study protocol: missing microbes in infants born by caesarean section (MiMIC): antenatal antibiotics and mode of delivery

Author

Eugene M Dempsey, Catherine Stanton, R Paul Ross, C Anthony Ryan, Elaine Patterson, John F Cryan, Alicja K Warda, Sofia D Forssten, Mairead N O'Riordan, Carol-Anne O’Shea, Finola Keohane, Grainne Meehan, and Orlagh O’Connor

Subjects
Medicine
Abstract

Introduction The intestinal microbiome in early life plays a major role in infant health and development. Factors like antibiotic exposure, breast/formula feeding and mode of delivery are known to affect the microbiome. The increasing occurrence of caesarean section (C-section) deliveries and antibiotic exposure warrants further insight into the potential missing microbes in those infants. The study objective is to study the effect of maternal antibiotic administration during pregnancy and/or C-section mode of delivery on the development of the infant’s intestinal microbiome until the age of 2 years.Methods and analysis A single site, cross-sectional observational study of C-section and vaginally delivered infants being either exposed to maternal antibiotic treatment or not during the third trimester of pregnancy. Throughout the nine visits, stool, urine, saliva, hair, breast milk and vaginal swabs will be collected from either mother and/or infant for microbiome and metabolomic analysis.Ethics and dissemination The protocol was approved by the Clinical Research Ethics Committee of the Cork Teaching Hospitals. The trial has been registered at ClinicalTrials.gov.The findings from this study will be disseminated in peer-reviewed journals, during scientific conferences, and directly to the study participants. Sequencing data will be deposited in public databases.Trial registration number NCT04134819.

Published
2022
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16. Index

Author

Anthony Ryan Hatch

Published
2019

18. Notes

Author

Anthony Ryan Hatch

Published
2019

24. Preface

Author

Anthony Ryan Hatch

Published
2019

26. Contents

Author

Anthony Ryan Hatch

Published
2019

27. Dynamic Changes in the Human Milk Metabolome Over 25 Weeks of Lactation

Author

Katrine Overgaard Poulsen, Fanyu Meng, Elisa Lanfranchi, Jette Feveile Young, Catherine Stanton, C. Anthony Ryan, Alan L. Kelly, and Ulrik Kraemer Sundekilde

Subjects
human milk, metabolomics, term delivery, lactation, NMR spectroscopy, Nutrition. Foods and food supply, TX341-641
Abstract

Human milk (HM) provides essential nutrition for ensuring optimal infant growth and development postpartum. Metabolomics offers insight into the dynamic composition of HM. Studies have reported the impact of lactation stage, maternal genotype, and gestational age on HM metabolome. However, the majority of the studies have considered changes within the first month of lactation or sampled with large intervals. This leaves a gap in the knowledge of progressing variation in HM composition beyond the first month of lactation. The objective of this study was to investigate whether the HM metabolome from mothers with term deliveries varies beyond 1 month of lactation, during the period in which HM is considered fully mature. Human milk samples (n = 101) from 59 mothers were collected at weeks 1–2, 3–5, 7–9, and 20–25 postpartum and analyzed using 1H nuclear magnetic resonance spectroscopy. Several metabolites varied over lactation and exhibited dynamic changes between multiple time points. Higher levels of HM oligosaccharides, cis-aconitate, O-phosphocholine, O-acetylcarnitine, gluconate, and citric acid were observed in early lactation, whereas later in lactation, levels of lactose, 3-fucosyllactose, glutamine, glutamate, and short- and medium-chain fatty acids were increased. Notably, we demonstrate that the HM metabolome is dynamic during the period of maturity.

Published
2022
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28. The ultra-structural, metabolomic and metagenomic characterisation of the sudanese smokeless tobacco ‘Toombak’

Author

Amel Sami, Imad Elimairi, Dhrati Patangia, Claire Watkins, C. Anthony Ryan, R. Paul Ross, and Catherine Stanton

Subjects
Toombak, Smokeless tobacco, Sudan, pH, Microbiome, Metabolome, Toxicology. Poisons, RA1190-1270
Abstract

Toombak is a smokeless tobacco produced from the Nicotiana rustica tobacco plant from Sudan. Pre-prepared and ready to buy Toombak samples were analysed using mass spectrometry (heavy metals), gas and liquid chromatography (metabolomics), 16S rRNA metagenomic sequencing (microbiome) and Phylogenetic Investigation of Communities by Reconstruction of Unobserved States (PICRUSt), scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDX) and pH analysis.Chromium, cobalt, and copper were high in the pre-prepared form of Toombak while iron, tobacco specific nitrosamines (TSNAs), formaldehyde and acetaldehyde were high in both types. Firmicutes and Actinobacteria dominated Toombak. Samples of ready to buy Toombak showed inter-variational differences depending on place of purchase. We found Virgibacillus were increased in the pre-prepared form while Corynebacterium casei, Atopococus tabaci, Atopostipes suicloacalis, Oceanobacillus chironomi and Staphylococcus gallinarum were the most abundant species in the ready to buy forms. PICRUSt analysis highlighted increased activity of metal transport systems in the ready to buy samples as well as an antibiotic transport system. SEM-EDX highlighted large non-homogenous, irregular particles with increased sodium, while pH of samples was in the alkaline range.The final composition of Toombak is affected by its method of preparation and the end product has the potential to impart many negative consequences on the health of its users. TSNA levels observed in Toombak were some of the highest in the world while the micro-environment of Toombak supports a distinct microbiota profile.

Published
2021
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29. Du Boisian Propaganda, Foucauldian Genealogy, and Antiracism in STS Research

Author

ANTHONY RYAN HATCH

Subjects
du bois, foucault, propaganda, genealogy, anti-black racism, Technology, Science
Abstract

This essay explores the relationships between the “new” anti-science formation under Trump and the kinds of anti-Black racisms we are experiencing at present. What appears at first glance to be a new anti-science formation, isn’t new at all, but old wine in new cloth, all dressed up to confound and distract our gaze from power. The vast majority of Black and Brown people are not surprised nor fooled by Donald Trump and the danger he represents to truth, to our lives, to our precious Earth. For that matter, how are STS scholars working to produce anti-racist knowledge that directly benefits Black people? In this commentary, I briefly respond to these questions by exploring how wildly contrasting accounts of propaganda, truth, and science by W.E.B. Du Bois and Michel Foucault might help STS scholars make sense of the relationship between anti-Black racism and the current anti-science moment in American society.

Published
2020
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30. Impact of antibiotics on the human microbiome and consequences for host health

Author

Dhrati V. Patangia, Cornelius Anthony Ryan, Eugene Dempsey, Reynolds Paul Ross, and Catherine Stanton

Subjects
antibiotic resistance, gut bacteria, microbiome, Microbiology, QR1-502
Abstract

Abstract It is well established that the gut microbiota plays an important role in host health and is perturbed by several factors including antibiotics. Antibiotic‐induced changes in microbial composition can have a negative impact on host health including reduced microbial diversity, changes in functional attributes of the microbiota, formation, and selection of antibiotic‐resistant strains making hosts more susceptible to infection with pathogens such as Clostridioides difficile. Antibiotic resistance is a global crisis and the increased use of antibiotics over time warrants investigation into its effects on microbiota and health. In this review, we discuss the adverse effects of antibiotics on the gut microbiota and thus host health, and suggest alternative approaches to antibiotic use.

Published
2022
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31. The data will not save us: Afropessimism and racial antimatter in the COVID-19 pandemic

Author

Anthony Ryan Hatch

Subjects
General Works
Abstract

The Trump Administration's governance of COVID-19 racial health disparities data has become a key front in the viral war against the pandemic and racial health injustice. In this paper, I analyze how the COVID-19 pandemic joins an already ongoing racial spectacle and system of structural gaslighting organized around “racial health disparities” in the United States and globally. The field of racial health disparities has yet to question the domain assumptions that uphold its field of investigation; as a result, the entire reform program called for by racial health disparities science is already featured on the menu of the white supremacist power structure. The societal infrastructure that produces scientific knowledge about patterns of health and disease in the human population needs to confront its structural position as part of the racial spectacle organized around racial health disparities in the United States. This paper offers an interpretation of racial antimatter to explain why the data will not save us in the COVID-19 pandemic, drawing on articulations of racial spectacle and structural gaslighting within critical race theory and Afropessimist thought. By positioning events in the COVID-19 pandemic together within the same racially speculative frame, I show how the collection of racial health disparities data came up against white supremacists’ political ambitions in a time-space where the demand for human life to matter and the iterative regeneration of racial antimatter collided. This paper highlights the need for ongoing analysis of the unfolding and future spectacles organized around racial health disparities.

Published
2022
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32. Probiotics, Prebiotics, and Synbiotics for the Prevention of Necrotizing Enterocolitis

Author

Kiera Murphy, R. Paul Ross, C. Anthony Ryan, Eugene M. Dempsey, and Catherine Stanton

Subjects
microbiome, prebiotic, probiotic, synbiotic, necrotizing enterocolitis, Nutrition. Foods and food supply, TX341-641
Abstract

Necrotizing enterocolitis (NEC) is a major cause of morbidity and mortality in preterm infants. The exact mechanism by which NEC develops is poorly understood however there is growing evidence to suggest that perturbations in the early-life gut microbiota composition increase the risk for NEC. Modulation of the gut microbiota with probiotics, prebiotics, or in combination (synbiotics) is an area which has attracted intense interest in recent years. In this narrative review, we present an overview of the role of the gut microbiota in the pathogenesis of NEC. We also examine the evidence currently available from randomized controlled trials, observational studies, systematic reviews, and meta-analysis examining the role of probiotics, prebiotics, and synbiotics in reducing the risk of or preventing NEC. Current clinical practice guidelines with recommendations on the routine administration of probiotics to preterm infants for NEC are also explored.

Published
2021
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33. A review and evaluation of study design considerations for omega-3 fatty acid supplementation trials in physically trained participants.

Author

Anthony, Ryan, Macartney, Michael J., Heileson, Jeffery L., McLennan, Peter L., and Peoples, Gregory E.

Subjects
*OMEGA-3 fatty acids, *CLINICAL trials, *DESCRIPTIVE statistics, *EXPERIMENTAL design, *SYSTEMATIC reviews, *MEDLINE, *BODY movement, *DATA analysis software, *ONLINE information services, *DIETARY supplements, *PHYSICAL activity
Abstract

Long-chain omega-3 polyunsaturated fatty acid (LC n -3 PUFA) supplements, rich in eicosapentaenoic acid and/or docosahexaenoic acid, are increasingly being recommended within athletic institutions. However, the wide range of doses, durations and study designs implemented across trials makes it difficult to provide clear recommendations. The importance of study design characteristics in LC n -3 PUFA trials has been detailed in cardiovascular disease research, and these considerations may guide LC n -3 PUFA study design in healthy cohorts. This systematic review examined the quality of studies and study design considerations used in evaluating the evidence for LC n -3 PUFA improving performance in physically trained adults. SCOPUS, PubMed and Web of Science electronic databases were searched to identify studies that supplemented LC n -3 PUFA in physically trained participants. Forty-six (n = 46) studies met inclusion. Most studies used a randomised control design. Risk of bias, assessed using the design-appropriate Cochrane Collaboration tool, revealed that studies had a predominant judgment of 'some concerns', 'high risk' or 'moderate risk' in randomised controlled, randomised crossover or non-randomised studies, respectively. A custom five-point quality assessment scale demonstrated that no study satisfied all recommendations for LC n -3 PUFA study design. This review has highlighted that the disparate range of study designs is likely contributing to the inconclusive state of outcomes pertaining to LC n -3 PUFA as a potential ergogenic aid. Further research must adequately account for the specific LC n -3 PUFA study design considerations, underpinned by a clear hypothesis, to achieve evidence-based dose, duration and composition recommendations for physically trained individuals. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Perinatal factors affect the gut microbiota up to four years after birth

Author

Fiona Fouhy, Claire Watkins, Cian J. Hill, Carol-Anne O’Shea, Brid Nagle, Eugene M. Dempsey, Paul W. O’Toole, R. Paul Ross, C. Anthony Ryan, and Catherine Stanton

Subjects
Science
Abstract

Early life microbiome is affected by factors such as mode of delivery, gestational age at birth and feeding regime. Here, the authors show that gestational age at birth still imprints on the microbiome at four years of age, suggesting a link between altered microbiome in prematurity and long term health implications.

Published
2019
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35. Comparison of the salivary and dentinal microbiome of children with severe-early childhood caries to the salivary microbiome of caries-free children

Author

Eimear Hurley, Maurice P. J. Barrett, Martin Kinirons, Helen Whelton, C. Anthony Ryan, Catherine Stanton, Hugh M. B. Harris, and Paul W. O’Toole

Subjects
Early childhood caries, Dentine, Saliva, Microbiota, Children, Dentistry, RK1-715
Abstract

Abstract Background The main objectives of this study were to describe and compare the microbiota of 1) deep dentinal lesions of deciduous teeth of children affected with severe early childhood caries (S-ECC) and 2) the unstimulated saliva of these children and 3) the unstimulated saliva of caries-free children, and to compare microbiota compositional differences and diversity of taxa in these sampled sites. Methods Children with S-ECC and without S-ECC were recruited. The saliva of all children with and without S-ECC was sampled along with the deep dentinal microbiota from children affected by S-ECC. The salivary microbiota of children affected by S-ECC (n = 68) was compared to that of caries-free children (n = 70), by Illumina MiSeq sequencing of 16S rRNA amplicons. Finally, the caries microbiota of deep dentinal lesions of those children with S-ECC was investigated. Results Using two beta diversity metrics (Bray Curtis dissimilarity and UniFrac distance), the caries microbiota was found to be distinct from that of either of the saliva groups (caries-free & caries-active) when bacterial abundance was taken into account. However, when the comparison was made by measuring only presence and absence of bacterial taxa, all three microbiota types separated. While the alpha diversity of the caries microbiota was lowest, the diversity difference between the caries samples and saliva samples was statistically significant (p

Published
2019
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37. UK advanced practice nurses’ experiences of the COVID-19 pandemic: a mixed-methods cross-sectional study

Author

Angela Tod, Anthony Ryan, Rachel King, Bethany Taylor, Emily Wood, Michaela Senek, and Steve Robertson

Subjects
Medicine
Abstract

Objective The aim of the study was to understand the experiences of advanced practice nurses (APNs) in the UK during the 2020 COVID-19 pandemic, particularly in relation to safety, shortages and retention.Design A cross-sectional, mixed-methods survey.Setting APNs in any UK setting.Participants The survey was sent to an existing UK-wide cohort of APNs. 124 APNs responded (51%).Results UK-based APNs in this study reported shortages of staff (51%) and personal protective equipment (PPE) (68%) during the first 3 months of the coronavirus outbreak. Almost half (47%) had considered leaving their job over the same 3 months. Despite difficulties, there were reports of positive changes to working practice that have enhanced care.Conclusion UK APNs report COVID-19-related shortages in staff and equipment across primary and secondary care and all regions of the UK. Shortages of PPE during a pandemic are known to be a factor in the development of mental health sequelae as well as a risk factor for increased turnover and retention issues. Half of APNs surveyed were considering a change in job. The UK risks a further crisis in staff morale and retention if this is not acknowledged and addressed. APNs also expressed concern about patients not receiving routine care as many specialties closed or reduced working during the crisis. However, there were also many examples of good practice, positive changes and innovation.

Published
2021
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38. Effect of storage, temperature, and extraction kit on the phylogenetic composition detected in the human milk microbiota

Author

Katriona E. Lyons, Fiona Fouhy, Carol‐Anne O’ Shea, C. Anthony Ryan, Eugene M. Dempsey, R. Paul Ross, and Catherine Stanton

Subjects
extraction kit, human milk, microbiome, storage, temperature, Microbiology, QR1-502
Abstract

Abstract Human milk is considered the optimum feeding regime for newborns and is a source of bacteria for the developing infant gastrointestinal tract. However, as with all low biomass samples, standardization across variabilities such as sample collection, storage, and extraction methods is needed to eliminate discrepancies in microbial composition across studies. The aim of this study was to investigate how different storage methods, temperatures, preservatives, and extraction kits influence the human milk microbiome, compared to fresh samples. Breast milk samples were processed via six different methods: fresh (Method 1), frozen at −80°C (Method 2), treated with RNAlater and stored at 4°C or −80°C (Methods 3 and 4), and treated with Milk Preservation Solution at room temperature (Methods 5 and 6). Methods 1‐5 were extracted using PowerFoodTM Microbial DNA Isolation kit (Mobio), and Method 6 was extracted using Milk DNA Preservation and Isolation kit (Norgen BioTek). At genus level, the most abundant genera were shared across Methods 1‐5. Samples frozen at −80°C had fewest significant changes while samples treated and extracted using Milk Preservation and Isolation kit had the most significant changes when compared to fresh samples. Diversity analysis indicated that variation in microbiota composition was related to the method and extraction kit used. This study highlighted that, when extraction from fresh milk samples is not an option, freezing at −80°C is the next best option to preserve the integrity of the milk microbiome. Furthermore, our results demonstrate that choice of extraction kit had a profound impact on the microbiota populations detected in milk.

Published
2021
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39. Metagenomic analysis of mother-infant gut microbiome reveals global distinct and shared microbial signatures

Author

Shaopu Wang, Shuqin Zeng, Muireann Egan, Paul Cherry, Conall Strain, Emilene Morais, Patrick Boyaval, C. Anthony Ryan, Eugene Dempsey, R. Paul Ross, and Catherine Stanton

Subjects
mother, infant, neonate, metagenomics, microbiome, gut, vertical transmission, prediction, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Emerging evidence indicates maternal microbiota as one major reservoir for pioneering microbes in infants. However, the global distinct and identical features of mother–infant gut microbiota at various taxonomic resolutions and metabolic functions across cohorts and potential of infant microbial prediction based on their paired mother’s gut microbiota remain unclear. Here, we analyzed 376 mother–infant dyads (468 mother and 1024 infant samples) of eight studies from six countries and observed higher diversity at species and strain levels in maternal gut microbiota but not their metabolic functions. A number of 290 species were shared in at least one mother–infant dyad, with 26 species (five at strain level) observed across cohorts. The profile of mother–infant shared species and strains was further influenced by delivery mode and feeding regimen. The mother-sourced species in infants exhibited similar strain heterogeneity but more metabolic functions compared to other-sourced species, suggesting the comparable stability and fitness of shared and non-shared species and the potential role of shared species in the early gut microbial community, respectively. Predictive models showed moderate performance accuracy for shared species and strains occurrences in infants. These generalized mother–infant shared species and strains may be considered as the primary targets for future work toward infant microbiome development and probiotics exploration.

Published
2021
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40. The Sporobiota of the Human Gut

Author

Muireann Egan, Eugene Dempsey, C. Anthony Ryan, R. Paul Ross, and Catherine Stanton

Subjects
gut microbiome, endospores, early life, transmission, sporobiota, clostridia, infant formula, breast milk, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

The human gut microbiome is a diverse and complex ecosystem that plays a critical role in health and disease. The composition of the gut microbiome has been well studied across all stages of life. In recent years, studies have investigated the production of endospores by specific members of the gut microbiome. An endospore is a tough, dormant structure formed by members of the Firmicutes phylum, which allows for greater resistance to otherwise inhospitable conditions. This innate resistance has consequences for human health and disease, as well as in biotechnology. In particular, the formation of endospores is strongly linked to antibiotic resistance and the spread of antibiotic resistance genes, also known as the resistome. The term sporobiota has been used to define the spore-forming cohort of a microbial community. In this review, we present an overview of the current knowledge of the sporobiota in the human gut. We discuss the development of the sporobiota in the infant gut and the perinatal factors that may have an effect on vertical transmission from mother to infant. Finally, we examine the sporobiota of critically important food sources for the developing infant, breast milk and powdered infant formula.

Published
2021
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44. Notes

Author

Anthony Ryan Hatch

Published
2016

47. Index

Author

Anthony Ryan Hatch

Published
2016

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