Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review

Nuala Murray; Sukainah Al Khalaf; David Kaulmann; Edgar Lonergan; John F Cryan; Gerard Clarke; Ali S. Khashan; Karen O’Connor

doi:10.12688/hrbopenres.13416.1

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Study Protocol

Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review

[version 1; peer review: 2 approved]

Nuala Murray¹, Sukainah Al Khalaf^2,3, David Kaulmann², [...] Edgar Lonergan⁴, John F Cryan⁵, Gerard Clarke^1,6, Ali S. Khashan^2,3, Karen O’Connor^1,4

Nuala Murray¹, Sukainah Al Khalaf^2,3, [...] David Kaulmann², Edgar Lonergan⁴, John F Cryan⁵, Gerard Clarke^1,6, Ali S. Khashan^2,3, Karen O’Connor^1,4

PUBLISHED 29 Sep 2021

Author details Author details

¹ Department of Psychiatry and Neurobehavioural Science, University College Cork, Cork, T12XF62, Ireland
² School of Public Health, University College Cork, Cork, T12XF62, Ireland
³ INFANT Research Centre, University College Cork, Cork, T12XF62, Ireland
⁴ RISE, Early Intervention in Psychosis Service, South Lee Mental Health Services, Cork, Ireland
⁵ Department of Anatomy and Neuroscience, University College Cork, Cork, T12XF62, Ireland
⁶ APC Microbiome Ireland, University College Cork, Western Rd, Cork, Ireland T12XF62, University College Cork, Cork, T12XF62, Ireland

Nuala Murray
Roles: Data Curation, Formal Analysis, Methodology, Project Administration, Validation, Visualization, Writing – Original Draft Preparation

Sukainah Al Khalaf
Roles: Data Curation, Formal Analysis, Methodology, Software, Writing – Review & Editing

David Kaulmann
Roles: Conceptualization

Edgar Lonergan
Roles: Conceptualization

John F Cryan
Roles: Conceptualization

Gerard Clarke
Roles: Conceptualization, Formal Analysis, Investigation, Methodology, Supervision, Writing – Review & Editing

Ali S. Khashan
Roles: Data Curation, Formal Analysis, Methodology, Software, Writing – Review & Editing

Karen O’Connor
Roles: Conceptualization, Methodology, Project Administration, Supervision, Visualization, Writing – Original Draft Preparation

OPEN PEER REVIEW

REVIEWER STATUS

Abstract

Background: Gut and oral microbiota are intrinsically linked to human health. Recent studies suggest a direct link with mental health through bidirectional gut–brain pathways. Emerging evidence suggests that the composition and/or function of intestinal microbiome differs in those with psychosis and schizophrenia as compared with controls. There is relatively little research on the predicted or actual functional alterations associated with the composition of oral and gut microbiota in patients with psychosis. We will perform a systematic review and meta-analysis to identify, evaluate and if possible, combine the published literature on compositional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia compared with healthy controls. We also aim to explore the potential functional impact of any compositional changes.
Methods: Original studies involving humans and animals using a case-control, cohort or cross-sectional design will be included. The electronic databases PsycINFO, EMBASE, Web of Science, PubMed/MEDLINE and Cochrane will be systematically searched. Quantitative analyses will be performed using random-effects meta-analyses to calculate mean difference with 95% confidence intervals.
Discussion: Changes in microbiota composition in psychosis and schizophrenia have been correlated with alternations in brain structure and function, altered immunity, altered metabolic pathways and symptom severity. Changes have also been identified as potential biomarkers for psychosis that might aid in diagnosis. Understanding how predicted or actual functional alterations in microbial genes or metabolic pathways influence symptomatic expression and downstream clinical outcomes may contribute to the development of microbiome targeted interventions for psychosis.
Registration: The study is prospectively registered in PROSPERO, the International Prospective Register of Systematic Reviews (CRD42021260208).

Keywords

Schizophrenia, Psychosis, Microbiota, Microbial Metabolites, Inflammation, Diversity

Corresponding author: Karen O’Connor

Competing interests: No competing interests were disclosed.

Grant information: The author(s) declared that no grants were involved in supporting this work.

Copyright: © 2021 Murray N et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

How to cite: Murray N, Al Khalaf S, Kaulmann D et al. Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review [version 1; peer review: 2 approved]. HRB Open Res 2021, 4:108 (https://doi.org/10.12688/hrbopenres.13416.1) First published: 29 Sep 2021, 4:108 (https://doi.org/10.12688/hrbopenres.13416.1) Latest published: 29 Sep 2021, 4:108 (https://doi.org/10.12688/hrbopenres.13416.1)

Introduction

The gut microbiota is a complex ecological community of microbes which are diverse and personalized¹ and includes bacteria, fungi and viruses². The collective microbial genome of these microorganisms is termed the microbiome and is often considered a second modifiable genome in the human body³. This gastrointestinal ecosystem is intrinsically linked to human health and recent studies suggest a direct link with mental health⁴. Gut microorganisms communicate with the brain through the gut-brain axis in a two-way communication system^5,6. This axis describes key pillar physiological systems including the endocrine, nervous, immune, and metabolic systems facilitating behavioural responses^7,8. Several processes have been investigated as mechanisms underpinning communication along this axis, including tryptophan metabolism^9,10, the hypothalamic-pituitary-adrenal axis¹¹, the production of microbial metabolites such as short chain fatty acids¹² and the vagus nerve⁶. A healthy microbiome supports effective signalling along these bidirectional gut–brain pathways¹³. These pathways may impact on a broad range of neurological and psychiatric conditions. Compositional and functional microbiome alterations have been associated with central nervous system (CNS) disorders including depression^14,15, Parkinson’s disease¹⁶, autistic spectrum disorder^17,18, and attention deficit hyperactivity disorder^19,20. Emerging evidence suggests that the composition and/or function of intestinal microbiome differs in those with schizophrenia as compared with controls^21–23.

Psychosis is a condition that affects the way the brain processes information. When experiencing psychosis people can become disconnected from reality and experience hallucinations and delusions. They can experience social withdrawal, anhedonia, and struggle to motivate themselves. Impaired cognition is also a typical symptom of acute psychosis. Psychosis is associated with an array of mental illnesses including schizophrenia, schizoaffective disorder, delusional disorder, bipolar disorder and depression. Psychotic symptoms can also be drug induced.

The aetiology of psychosis is thought to be multifactorial and the result of interactions between genetic and environmental factors²⁴. Several theories have attempted to explain its pathogenesis and alterations in neurotransmitter pathways involving dopamine, glutamate, and γ-aminobutyric acid (GABA) have been implicated^25–27. Converging evidence suggests that psychosis is associated with chronic systemic and gastrointestinal inflammation, oxidative stress, and metabolic dysfunction²⁸. Metabolic and gut disturbances are highly prevalent in psychosis and schizophrenia, with comorbidities including celiac disease, colitis, and irritable bowel syndrome²⁹. In fact, gastrointestinal diseases are the third leading cause of natural deaths in schizophrenia³⁰. Physiological dysfunctions implicated in psychosis such as inflammation and oxidative stress may be associated with changes in the microbiome²¹.

Whilst empirical investigations have focused on elucidating compositional and functional aspects of the intestinal microbiota in maintaining ongoing physiological processes within the gastrointestinal tract^31,32, there is relatively little research on the predicted or actual functional alterations associated with the composition of oral and gut microbiota in patients with psychosis. Multiple studies have documented an interaction between the gut microbiome and immunity, cognitive functioning, and behaviour in animal models. For example, findings from mechanistic studies in rodent models demonstrate that compositional alterations during early neurodevelopment or in adulthood can lead to direct CNS effects that manifest during adulthood^33,34. Translational support from clinical populations that reflect endophenotypes characteristic of schizophrenia is more difficult to obtain. We will perform a systematic review and meta-analysis to identify, evaluate and if possible, combine data on the compositional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia. We also aim to explore mechanistic insights and/or the evidence for a potential causal role and in both human and animal models.

Objectives

1. To systematically review previous studies that have investigated the association between psychosis or schizophrenia and compositional and functional alterations in the oral and gut microbiota.
2. To undertake a meta-analysis of compositional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia.
3. To systematically review the data on the clinical and functional consequences of these alterations in humans and animals, from a causal and mechanistic perspective.

Methods

The protocol for this systematise review was registered on PROSPERO the international prospective register of systematic reviews (CRD42021260208). This systematic review and meta-analysis will be conducted in accordance with the guidelines for systematic review and meta-Analysis (PRISMA) and protocols (PRISMA-P) (online supplemental appendix 1)³⁵.

Eligibility criteria

The systematic review will include original studies using a case-control, cohort or cross-sectional design. Case reports, expert opinions, and reviews will not be eligible for inclusion. Clinical studies will include human adults. Preclinical studies will focus on animal studies involving the faecal microbiota transplant of psychosis-associated microbiota consortia.

Information sources and search strategy

The electronic databases PsycINFO, EMBASE, Web of Science, PubMed/MEDLINE and Cochrane will be systematically searched. Peer-reviewed research articles from 1990–2021 will be considered, so that current literature is evaluated. The search terms will include both free text and MeSH terms. Our search strategy for PubMed/MEDLINE is as follows:

1. (‘microbiota’ OR ‘microflora’/ OR ‘microbiome’ OR ‘bacterial microbiome’/ OR ‘intestine mucosa’/ OR ‘gut brain’ OR ‘oral microbiota’ OR ‘oral microbiome’/ OR ‘oral microflora’/ OR ‘RNA 16S’/ OR ‘gut microbiota’ OR ‘gut microbiome’ OR ‘gut microflora’/ OR ‘gut bacteria’/ OR ‘gut dysbiosis’ OR ‘phageome’ OR ‘faecal’ OR ‘faecal microbiota transplant*’ OR ‘intestinal microbiota transfer’/ OR ‘faeces infusion’ OR ‘donor faeces infusion’/)

2. (‘alpha diversity’ OR ‘beta diversity’ OR ‘human’/ OR ‘animal’/ OR ‘intestine flora’/ OR ‘microbial diversity’/ OR ‘taxonomy’ OR ‘metagenom*’ OR ‘microbiota’ OR ‘gut microbiome composition’ OR ‘metabolomic’/ OR ‘compositional alteration*’ OR ‘functional alteration*’ OR ‘brain function’ OR ‘symptom severity’ OR disease severity’/ OR ‘behaviour’ OR ‘functional pathway’)

3. Searches 1 and 2 were then be combined (1 ‘OR’ 2)

4. (‘schizophrenia’ OR ‘psychosis’/ OR ‘psychoses’/ OR ‘psychotic disorder’/ OR ‘schizophrenic disorder’/ OR ‘mental illness’/ OR ‘mental disease’/ OR ‘psychiatric’ OR ‘psychosis’/ OR ‘psychiatric disorder’/ OR ‘major psychiatric disorder’/ OR ‘major psychiatric illness’/ OR ‘brief psychotic episode’ OR ‘first episode psychosis’ OR ‘early psychosis’ OR ‘new episode psychosis’ OR ‘new psychosis’)

5. Searches 3 and 4 were then be combined (3 ‘AND’ 4)

The search strategy will be adapted for PsycINFO, EMBASE, Web of Science and Cochrane. Further search terms will be identified via descriptive terms under MeSH terms.

Selection of studies

After conducting the initial literature search as described above in the "searches" section, two reviewers (NM and KO) will independently screen titles and abstracts, excluding studies that did not meet the eligibility criteria. Full text of potentially eligible studies will then be obtained and screened by the same reviewers. Any disagreement at this stage will be mediated through a third reviewer (GC). A PRISMA flow chart will display the articles examined at each stage, detailing the number of papers included and excluded and reasons for exclusion (online supplemental appendix 2).

Data extraction and management

Two reviewers (NM and SA) will extract the data from included studies using a pre-piloted data collection form in order to meet MECIR standards³⁶ (online supplemental appendix 3). Any disagreement will be discussed with a third independent reviewer (ASK). The following information will be retrieved:

• General information: Study ID, reference citation, author contact details
• Methods: Aim of study, design, start and end date, duration of participation, ethical approval needed / obtained.
• Participants: Population description, setting, inclusion and exclusion criteria, method of recruitment, number of cases, number of controls, withdrawals and exclusions.
• Demographics: Age (at time sample was taken), gender, diagnostic tool, subgroups measure / reported.
• Compositional and functional outputs and information on how this data was analysed will be retrieved from all included studies. The key conclusions of the study author will be retrieved.

In case of duplicate publication of the same data, we will include the publication with most relevant data to our study question, or with the largest cohort if both are relevant. Where required information is not directly available from the studies, study authors will be contacted to request this information. Study authors will be contacted via email. In the case where no response is given a follow-up reminder email will be sent.

Outcome data

Compositional outcomes will include alpha diversity (e.g. Shannon diversity index / Faith’s Phylogenetic Diversity), beta diversity (e.g. Bray-Curtis dissimilarity, Unifrac, Unweighted unifrac), diversity analysis (e.g. PERMANOVA), differential abundance at phylum and genus level and across taxonomic levels (e.g. ANCOM), and associations of compositional alterations with demographic and clinical characteristics of the population.

Functional outcomes will include predicted (16s) or actual (metagenomic) differential abundance of microbial genes, metabolic pathways, hormones, brain volume or function, behavioural changes, associations of functional alterations with demographic and clinical characteristics of the population.

Risk of bias assessment

Quality assessment will be carried out using existing appraisal checklists for case-control, cohort or cross-sectional studies provided in the Newcastle-Ottawa Scale³⁷. For each study, risk of bias will be classified (high, moderate or low) by two review authors (NM and SA) independently. Data quality for each study will be recorded in a spreadsheet and a table summarising the quality of assessment/evidence. Any disagreement will be discussed with a third reviewer (ASK).

Data synthesis and statistical analysis

Systematic Review: Studies will be grouped and analysed according to sequencing approach and key outputs, and tables will display the summary characteristics of all papers included in the systematic review. The tables will outline the following: characteristics of study populations (N, age, sex), diagnostic criteria, study design, intervention/test type, and outcomes. The outcomes refer to the difference in the diversity and composition of oral and gut microbiota between psychosis / schizophrenia groups and non-psychosis / non-schizophrenia groups.

Meta-analysis: When at least two studies reported the same outcome, the reported effect estimates will be pooled using random-effects meta-analyses. Mean difference (MD) and 95% confidence interval (CI) will be calculated, when there are standardised methods in the used scales, to assess alterations in the oral and gut microbiota in patients with psychosis compared to healthy controls. The pooled effect estimates will be displayed in a forest plot with 95% CIs. Cohen's criteria will be used to interpret effect sizes: small (0.2), medium (0.5), and large effects (0.8)³⁸. The Q and I² statistics will be used to test heterogeneity between studies³⁹. The statistical heterogeneity between studies will be assessed according to I² values; 25%, 50% and 75% will be used to indicate a low, moderate and high level of heterogeneity respectively³⁸. If high heterogeneity is observed, this will be explored using subgroup analyses. Subgroup analysis will be conducted according to study design and risk of bias assessment, and if the meta-analyses allow such an approach to be undertaken.

If the data allow for meta-analysis, a sensitivity analysis will be conducted, excluding one study at a time to assess whether specific studies have a major influence on the results. Potential publication bias will be assessed by visual inspection of funnel plots, and the asymmetry of the funnel plot will be statistically examined using Egger’s test. All analyses will be performed using Review Manager, version 5.3 (Nordic Cochrane Centre, Copenhagen, Denmark) and Stata, version 16 for Egger’s test. P<0.05 will be considered statistically significant.

Ethics

This study is based on published data and will not include any human participants or animals; thus, ethical approval is not required. Results of this study are expected to be published in peer-reviewed journals or conference abstracts.

Discussion

Growing evidence suggests that there are differences in the alpha and beta diversity in the microbial composition of people with psychosis and schizophrenia as compared with controls^21,23,40. A smaller number of studies explore the predicted or actual functional alterations in microbial genes or metabolic pathways associated with these differences^41–43. Changes in microbiota composition in psychosis and schizophrenia have been correlated with altered brain structure and function, altered immunity, altered metabolic pathways and symptom severity. Altered metabolic pathways have, in turn, been associated with inflammatory cytokines and risk for coronary heart disease in psychosis and schizophrenia. This has been replicated in animal studies with specific behavioural patterns^44–48. Changes in microbiota composition have also been identified as potential biomarkers for psychosis and schizophrenia that might aid in diagnosis. Understanding how predicted or actual functional alterations in microbial genes or metabolic pathways influence symptomatic expression and downstream clinical outcomes may contribute to the development of microbiome targeted interventions for psychosis and schizophrenia.

Our study has limitations. Given the inclusion of observational studies and the anticipated variance in study methodology and design, we anticipate large interstudy heterogeneity. Sources of heterogeneity will be further explored using subgroup analysis and meta-regression. We anticipate the number of included studies will be small. This is likely to be particularly true of those exploring the predicted alterations in functional pathways.

Study status

Preliminary searches, piloting of the study selection process and formal screening of search results against eligibility criteria has been completed. Data extraction, risk of bias (quality) assessment and data analysis is ongoing.

Data availability

Zenodo. Extended data for ‘Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review’.

https://doi.org/10.5281/zenodo.5501952⁴⁹

This project contains the following underlying data:

• Appendix 1: Completed PRISMA-P checklist
• Appendix 2: PRISMA flow diagram for studies of oral and gut microbiome in psychosis or schizophrenia
• Appendix 3: Data collection form

Data are available under the terms of the Creative Commons Zero "No rights reserved" data waiver (CC0 1.0 Public domain dedication).

Contributors

KO is the guarantor of this systematic review, initiated this research and designed the systematic review protocol. NM, AK and GC contributed to the design and revision of the systematic review protocol. NM, KO and GC completed the pilot literature search and the formal selection of studies. NM, SA and AK will conduct the data extraction, evaluation of risk of bias and quantitative synthesis. NM and KO will draft the manuscript. All the authors will be involved in result interpretation. All the authors contributed to the review and revision of the manuscript and approved the publication.

Faculty Opinions recommended

References

1. Szeligowski T, Yun AL, Lennox BR, et al.: The Gut Microbiome and Schizophrenia: The Current State of the Field and Clinical Applications. Front Psychiatry. 2020; 11: 156. PubMed Abstract | Publisher Full Text | Free Full Text
2. Sylvia KE, Demas GE: A gut feeling: microbiome-brain-immune interactions modulate social and affective behaviors. Horm Behav. 2018; 99: 41–49. PubMed Abstract | Publisher Full Text | Free Full Text
3. Zhu B, Wang X, Li L: Human gut microbiome: the second genome of human body. Protein Cell. 2010; 1(8): 718–25. PubMed Abstract | Publisher Full Text | Free Full Text
4. Lynch SV, Pedersen O: The human intestinal microbiome in health and disease. N Engl J Med. 2016; 375(24): 2369–2379. PubMed Abstract | Publisher Full Text
5. Dinan TG, Cryan JF: Melancholic microbes: a link between gut microbiota and depression? Neurogastroenterol Motil. 2013; 25(9): 713–9. PubMed Abstract | Publisher Full Text
6. Cryan JF, O'Riordan KJ, Cowan CSM, et al.: The microbiota-gut-brain axis. Physiol Rev. 2019; 99(4): 1877–2013. PubMed Abstract | Publisher Full Text
7. Cryan JF, O’Mahony SM: The microbiome-gut-brain axis: from bowel to behavior. Neurogastroenterol Motil. 2011; 23(3): 187–92. PubMed Abstract | Publisher Full Text
8. Zhu X, Han Y, Du J, et al.: Microbiota-gut-brain axis and the central nervous system. Oncotarget. 2017; 8(32): 53829–53838. PubMed Abstract | Publisher Full Text | Free Full Text
9. O’Mahony SM, Clarke G, Borre YE, et al.: Serotonin, tryptophan metabolism and the brain-gut-microbiome axis. Behav Brain Res. 2015; 277: 32–48. PubMed Abstract | Publisher Full Text
10. Rogers GB, Keating DJ, Young RL, et al.: From gut dysbiosis to altered brain function and mental illness: mechanisms and pathways. Mol Psychiatry. 2016; 21(6): 738–48. PubMed Abstract | Publisher Full Text | Free Full Text
11. Huo R, Zeng B, Zeng L, et al.: Microbiota modulate anxiety-like behavior and endocrine abnormalities in hypothalamic-pituitary-adrenal axis. Front Cell Infect Microbiol. 2017; 7: 489. PubMed Abstract | Publisher Full Text | Free Full Text
12. Waclawiková B, El Aidy S: Role of microbiota and tryptophan metabolites in the remote effect of intestinal inflammation on brain and depression. Pharmaceuticals (Basel). 2018; 11(3): 63. PubMed Abstract | Publisher Full Text | Free Full Text
13. Stefano GB, Pilonis N, Ptacek R, et al.: Gut, Microbiome, and Brain Regulatory Axis: Relevance to Neurodegenerative and Psychiatric Disorders. Cell Mol Neurobiol. 2018; 38(6): 1197–1206. PubMed Abstract | Publisher Full Text | Free Full Text
14. Zheng P, Zeng B, Zhou C, et al.: Gut microbiome remodeling induces depressive-like behaviors through a pathway mediated by the host’s metabolism. Mol Psychiatry. 2016; 21(6): 786–96. PubMed Abstract | Publisher Full Text
15. Dash S, Clarke G, Berk M, et al.: The gut microbiome and diet in psychiatry: focus on depression. Curr Opin Psychiatry. 2015; 28(1): 1–6. PubMed Abstract | Publisher Full Text
16. Boertien JM, Pereira PAB, Aho VTE, et al.: Increasing comparability and utility of gut microbiome studies in Parkinson’s disease: a systematic review. J Parkinsons Dis. 2019; 9(s2): S297–S312. PubMed Abstract | Publisher Full Text | Free Full Text
17. Luna RA, Savidge TC, Williams KC: The brain-gut-microbiome axis: what role does it play in autism spectrum disorder? Curr Dev Disord Rep. 2016; 3(1): 75–81. PubMed Abstract | Publisher Full Text | Free Full Text
18. Saurman V, Margolis KG, Luna RA: Autism spectrum disorder as a brain-gut-microbiome axis disorder. Dig Dis Sci. 2020; 65(3): 818–828. PubMed Abstract | Publisher Full Text | Free Full Text
19. Ming X, Chen N, Ray C, et al.: A gut feeling: a hypothesis of the role of the microbiome in attention-deficit/hyperactivity disorders. Child Neurol Open. 2018; 5: 2329048X18786799. PubMed Abstract | Publisher Full Text | Free Full Text
20. Dam SA, Mostert JC, Szopinska-Tokov JW, et al.: The role of the gut-brain axis in attention-deficit/hyperactivity disorder. Gastroenterol Clin North Am. 2019; 48(3): 407–431. PubMed Abstract | Publisher Full Text
21. Nguyen TT, Kosciolek T, Maldonado Y, et al.: Differences in gut microbiome composition between persons with chronic schizophrenia and healthy comparison subjects. Schizophr Res. 2019; 204: 23–29. PubMed Abstract | Publisher Full Text | Free Full Text
22. Schwarz E, Maukonen J, Hyytiäinen T, et al.: Analysis of microbiota in first episode psychosis identifies preliminary associations with symptom severity and treatment response. Schizophr Res. 2018; 192: 398–403. PubMed Abstract | Publisher Full Text
23. Zhang X, Pan LY, Zhang Z, et al.: Analysis of gut mycobiota in first-episode, drug-naive Chinese patients with schizophrenia: A pilot study. Behav Brain Res. 2020; 379: 112374. PubMed Abstract | Publisher Full Text
24. Uher R, Zwicker A: Etiology in psychiatry: embracing the reality of poly-gene-environmental causation of mental illness. World Psychiatry. 2017; 16(2): 121–129. PubMed Abstract | Publisher Full Text | Free Full Text
25. Brugger SP, Angelescu I, Abi-Dargham A, et al.: Heterogeneity of striatal dopamine function in schizophrenia: meta-analysis of variance. Biol Psychiatry. 2020; 87(3): 215–224. PubMed Abstract | Publisher Full Text
26. McCutcheon RA, Pillinger T, Rogdaki M, et al.: Glutamate connectivity associations converge upon the salience network in schizophrenia and healthy controls. Transl Psychiatry. 2021; 11(1): 322. PubMed Abstract | Publisher Full Text | Free Full Text
27. Xu MY, Wong AHC: GABAergic inhibitory neurons as therapeutic targets for cognitive impairment in schizophrenia. Acta Pharmacol Sin. 2018; 39(5): 733–753. PubMed Abstract | Publisher Full Text | Free Full Text
28. Nguyen TT, Kosciolek T, Eyler LT, et al.: Overview and systematic review of studies of microbiome in schizophrenia and bipolar disorder. J Psychiatr Res. 2018; 99: 50–61. PubMed Abstract | Publisher Full Text | Free Full Text
29. Severance EG, Prandovszky E, Castiglione J, et al.: Gastroenterology issues in schizophrenia: why the gut matters. Curr Psychiatry Rep. 2015; 17(5): 27. PubMed Abstract | Publisher Full Text | Free Full Text
30. Saha S, Chant D, McGrath J: A systematic review of mortality in schizophrenia: is the differential mortality gap worsening over time? Arch Gen Psychiatry. 2007; 64(10): 1123–31. PubMed Abstract | Publisher Full Text
31. Obata Y, Pachnis V: The effect of microbiota and the immune system on the development and organization of the enteric nervous system. Gastroenterology. 2016; 151(5): 836–844. PubMed Abstract | Publisher Full Text | Free Full Text
32. Yano JM, Yu K, Donaldson GP, et al.: Indigenous bacteria from the gut microbiota regulate host serotonin biosynthesis. Cell. 2015; 161(2): 264–76. PubMed Abstract | Publisher Full Text | Free Full Text
33. Codagnone MG, Spichak S, O’Mahony SM, et al.: Programming bugs: microbiota and the developmental origins of brain health and disease. Biol Psychiatry. 2019; 85(2): 150–63. PubMed Abstract | Publisher Full Text
34. Dinan TG, Borre YE, Cryan JF: Genomics of schizophrenia: time to consider the gut microbiome? Mol Psychiatry. 2014; 19(12): 1252–7. PubMed Abstract | Publisher Full Text
35. Moher D, Shamseer L, Clarke M, et al.: Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Syst Rev. 2015; 4(1): 1–9. PubMed Abstract | Publisher Full Text | Free Full Text
36. Chandler J, Churchill R, Higgins J, et al.: Methodological standards for the conduct of new Cochrane Intervention Reviews. Sl: Cochrane Collaboration. 2013; 3(2): 1–14.
37. Wells G, Shea B, O’Connell D, et al.: Newcastle-Ottawa quality assessment scale cohort studies. University of Ottawa. 2014.
38. Higgins JPT, Thompson SG, Deeks JJ, et al.: Measuring inconsistency in meta-analyses. BMJ. 2003; 327(7414): 557–60. PubMed Abstract | Publisher Full Text | Free Full Text
39. Higgins JPT, Thompson SG: Quantifying heterogeneity in a meta‐analysis. Stat Med. 2002; 21(11): 1539–58. PubMed Abstract | Publisher Full Text
40. Cheng SQ, Han B, Ding M, et al.: Identifying psychiatric disorder-associated gut microbiota using microbiota-related gene set enrichment analysis. Brief Bioinform. 2020; 21(3): 1016–1022. PubMed Abstract | Publisher Full Text
41. Li S, Song J, Ke P, et al.: The gut microbiome is associated with brain structure and function in schizophrenia. Sci Rep. 2021; 11(1): 9743. PubMed Abstract | Publisher Full Text | Free Full Text
42. Liang W, Huang Y, Tan X, et al.: Alterations of glycerophospholipid and fatty acyl metabolism in multiple brain regions of schizophrenia microbiota recipient mice. Neuropsychiatr Dis Treat. 2019; 15: 3219–3229. PubMed Abstract | Publisher Full Text | Free Full Text
43. Shen Y, Xu J, Li Z, et al.: Analysis of gut microbiota diversity and auxiliary diagnosis as a biomarker in patients with schizophrenia: A cross-sectional study. Schizophr Res. 2018; 197: 470–477. PubMed Abstract | Publisher Full Text
44. Xu R, Wu B, Liang J, et al.: Altered gut microbiota and mucosal immunity in patients with schizophrenia. Brain Behav Immun. 2020; 85: 120–7. PubMed Abstract | Publisher Full Text
45. Pan R, Zhang X, Gao J, et al.: Analysis of the diversity of intestinal microbiome and its potential value as a biomarker in patients with schizophrenia: A cohort study. Psychiatry Res. 2020; 291: 113260. PubMed Abstract | Publisher Full Text
46. Nguyen TT, Kosciolek T, Daly RE, et al.: Gut microbiome in Schizophrenia: Altered functional pathways related to immune modulation and atherosclerotic risk. Brain Behav Immun. 2021; 91: 245–256. PubMed Abstract | Publisher Full Text | Free Full Text
47. Zheng P, Zeng B, Liu M, et al.: The gut microbiome from patients with schizophrenia modulates the glutamate-glutamine-GABA cycle and schizophrenia-relevant behaviors in mice. Sci Adv. 2019; 5(2): eaau8317. PubMed Abstract | Publisher Full Text | Free Full Text
48. Zhu F, Guo R, Wang W, et al.: Transplantation of microbiota from drug-free patients with schizophrenia causes schizophrenia-like abnormal behaviors and dysregulated kynurenine metabolism in mice. Mol Psychiatry. 2020; 25(11): 2905–2918. PubMed Abstract | Publisher Full Text
49. Murray N, Al Khalaf S, Kaulmann D, et al.: Extended data for 'Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review'. Zenodo. 2021. http://www.doi.org/10.5281/zenodo.5501952

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Author details Author details

¹ Department of Psychiatry and Neurobehavioural Science, University College Cork, Cork, T12XF62, Ireland
² School of Public Health, University College Cork, Cork, T12XF62, Ireland
³ INFANT Research Centre, University College Cork, Cork, T12XF62, Ireland
⁴ RISE, Early Intervention in Psychosis Service, South Lee Mental Health Services, Cork, Ireland
⁵ Department of Anatomy and Neuroscience, University College Cork, Cork, T12XF62, Ireland
⁶ APC Microbiome Ireland, University College Cork, Western Rd, Cork, Ireland T12XF62, University College Cork, Cork, T12XF62, Ireland

Nuala Murray
Roles: Data Curation, Formal Analysis, Methodology, Project Administration, Validation, Visualization, Writing – Original Draft Preparation

Sukainah Al Khalaf
Roles: Data Curation, Formal Analysis, Methodology, Software, Writing – Review & Editing

David Kaulmann
Roles: Conceptualization

Edgar Lonergan
Roles: Conceptualization

John F Cryan
Roles: Conceptualization

Gerard Clarke
Roles: Conceptualization, Formal Analysis, Investigation, Methodology, Supervision, Writing – Review & Editing

Ali S. Khashan
Roles: Data Curation, Formal Analysis, Methodology, Software, Writing – Review & Editing

Karen O’Connor
Roles: Conceptualization, Methodology, Project Administration, Supervision, Visualization, Writing – Original Draft Preparation

Competing interests

No competing interests were disclosed.

Grant information

The author(s) declared that no grants were involved in supporting this work.

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Published: 29 Sep 2021, 4:108

https://doi.org/10.12688/hrbopenres.13416.1

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© 2021 Murray N et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Murray N, Al Khalaf S, Kaulmann D et al. Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review [version 1; peer review: 2 approved]. HRB Open Res 2021, 4:108 (https://doi.org/10.12688/hrbopenres.13416.1)

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PUBLISHED 29 Sep 2021

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24

Reviewer Report 30 Nov 2021

Melanie Focking, Department of Psychiatry, Royal College of Surgeons in Ireland, Dublin, Ireland

Approved

https://doi.org/10.21956/hrbopenres.14618.r30846

The microbiome is an interesting and rapidly growing area of research and its importance for human health is becoming more and more obvious. How the gut microbiome affects the mammalian brain, especially in mental disorders is an area of great ... Continue reading

The microbiome is an interesting and rapidly growing area of research and its importance for human health is becoming more and more obvious. How the gut microbiome affects the mammalian brain, especially in mental disorders is an area of great interest currently. Different teams using different approaches, both in men and mice have been published in this field. The aim of the current project is to streamline this information, by undertaking a systematic review and meta-analysis of relevant data to further the understanding how changes in microbial genes or metabolic pathways influence symptomatic expression and clinical outcomes. It is hoped that the information gained will aid in development of microbiome targeted interventions for psychosis.

The manuscript study protocol submitted gives a great background to the field and describes the need for a systematic review and meta-analysis. The authors are very clear about their search strategy and have already proven that the keywords used are giving good results. In addition, they have already used the PRISMA template (the golden standard for systematic review) for their search and have screened the articles obtained and funnelled down the list to 21 papers/studies to be included. The hypothesis of their work is well described and the authors seem very realistic about the outcome. To me, this looks very well thought through and I have no doubt that despite the small number of studies included, some good results can be expected that will further the field.

While I am very enthusiastic about the study and the information that will be gained, the authors do propose to include findings from animal studies. Not much information is provided in the manuscript so far but it would be helpful to the reader if the authors state how they are planning to integrate this information and if they anticipate this could cause some problems.

Overall, a very well described manuscript and a study to watch out for.

Is the rationale for, and objectives of, the study clearly described?

Yes
Is the study design appropriate for the research question?

Yes
Are sufficient details of the methods provided to allow replication by others?

Yes
Are the datasets clearly presented in a useable and accessible format?

Yes

Competing Interests: No competing interests were disclosed.

Reviewer Expertise: Psychotic disorders, clinical high risk of psychosis, first episode psychosis, proteomics, biochemistry

I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.

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30

Reviewer Report 14 Oct 2021

Monty Lyman, University of Oxford, Oxford, UK

Belinda R. Lennox, Department of Psychiatry, University of Oxford, Oxford, UK

Approved

https://doi.org/10.21956/hrbopenres.14618.r30530

This protocol for a systematic review is detailed, thorough and well placed to answer a clinically relevant and interesting research question. The methods – from assessing risk of bias to statistical analysis – fulfil PRISMA criteria and are clearly described, ... Continue reading

This protocol for a systematic review is detailed, thorough and well placed to answer a clinically relevant and interesting research question. The methods – from assessing risk of bias to statistical analysis – fulfil PRISMA criteria and are clearly described, enabling replication. The search terms strike a good balance of being both broad enough to identify many papers but also targeted enough to be relevant to answering the research question.

We have a few minor suggestions for the authors:

1) The introduction should include clear definitions of both compositional and functional alterations. While these are indirectly described throughout the paper - and fleshed out in the 'Outcome data' section - these should be clearly defined at the start of the paper.

2) In the introduction, it states that 'psychosis is associated with an array of mental illnesses including schizophrenia, schizoaffective disorder, delusional disorder, bipolar disorder and depression', however only schizophrenia features in the search strategy. If other disorders such as bipolar disorder are not included, it would be helpful if the rationale for this is explained in the paper.

3) The sentence ‘In fact, gastrointestinal diseases are the third leading cause of natural deaths in schizophrenia’ in the introduction is arguably extraneous to the argument and direction of the paper. The authors of the reference supporting this sentence admit that their paper does not take into account the influence of antipsychotics on gastrointestinal diseases, including GI dysmotility and clozapine-induced bowel obstruction. Perhaps this statement could be omitted?

Aside these minor suggestions to the introduction, we believe that this is an excellent study protocol and we look forward to reading the results on completion of the study.

Is the rationale for, and objectives of, the study clearly described?

Yes
Is the study design appropriate for the research question?

Yes
Are sufficient details of the methods provided to allow replication by others?

Yes
Are the datasets clearly presented in a useable and accessible format?

Not applicable

Competing Interests: No competing interests were disclosed.

Reviewer Expertise: Academic Clinical Fellow in Psychiatry, University of Oxford. Studying the relationship between the gut microbiome and mental health.

We confirm that we have read this submission and believe that we have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.

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Version 1

VERSION 1 PUBLISHED 29 Sep 2021

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Version 1 29 Sep 21	read	read

Monty Lyman, University of Oxford, Oxford, UK

Belinda R. Lennox, University of Oxford, Oxford, UK
Melanie Focking, Royal College of Surgeons in Ireland, Dublin, Ireland

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Reviewer Report

24 Views

30 Nov 2021 | for Version 1

Melanie Focking, Department of Psychiatry, Royal College of Surgeons in Ireland, Dublin, Ireland

24 Views Cite this report Responses(0)

Approved

The microbiome is an interesting and rapidly growing area of research and its importance for human health is becoming more and more obvious. How the gut microbiome affects the mammalian brain, especially in mental disorders is an area of great interest currently. Different teams using different approaches, both in men and mice have been published in this field. The aim of the current project is to streamline this information, by undertaking a systematic review and meta-analysis of relevant data to further the understanding how changes in microbial genes or metabolic pathways influence symptomatic expression and clinical outcomes. It is hoped that the information gained will aid in development of microbiome targeted interventions for psychosis.

The manuscript study protocol submitted gives a great background to the field and describes the need for a systematic review and meta-analysis. The authors are very clear about their search strategy and have already proven that the keywords used are giving good results. In addition, they have already used the PRISMA template (the golden standard for systematic review) for their search and have screened the articles obtained and funnelled down the list to 21 papers/studies to be included. The hypothesis of their work is well described and the authors seem very realistic about the outcome. To me, this looks very well thought through and I have no doubt that despite the small number of studies included, some good results can be expected that will further the field.

While I am very enthusiastic about the study and the information that will be gained, the authors do propose to include findings from animal studies. Not much information is provided in the manuscript so far but it would be helpful to the reader if the authors state how they are planning to integrate this information and if they anticipate this could cause some problems.

Overall, a very well described manuscript and a study to watch out for.

Is the rationale for, and objectives of, the study clearly described?

Yes
Is the study design appropriate for the research question?

Yes
Are sufficient details of the methods provided to allow replication by others?

Yes
Are the datasets clearly presented in a useable and accessible format?

Yes

Competing Interests

No competing interests were disclosed.

Reviewer Expertise

Psychotic disorders, clinical high risk of psychosis, first episode psychosis, proteomics, biochemistry

I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.

Respond to this report

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Reviewer Report

30 Views

14 Oct 2021 | for Version 1

Monty Lyman, University of Oxford, Oxford, UK

Belinda R. Lennox, Department of Psychiatry, University of Oxford, Oxford, UK

30 Views Cite this report Responses(0)

Approved

This protocol for a systematic review is detailed, thorough and well placed to answer a clinically relevant and interesting research question. The methods – from assessing risk of bias to statistical analysis – fulfil PRISMA criteria and are clearly described, enabling replication. The search terms strike a good balance of being both broad enough to identify many papers but also targeted enough to be relevant to answering the research question.

We have a few minor suggestions for the authors:

1) The introduction should include clear definitions of both compositional and functional alterations. While these are indirectly described throughout the paper - and fleshed out in the 'Outcome data' section - these should be clearly defined at the start of the paper.

2) In the introduction, it states that 'psychosis is associated with an array of mental illnesses including schizophrenia, schizoaffective disorder, delusional disorder, bipolar disorder and depression', however only schizophrenia features in the search strategy. If other disorders such as bipolar disorder are not included, it would be helpful if the rationale for this is explained in the paper.

3) The sentence ‘In fact, gastrointestinal diseases are the third leading cause of natural deaths in schizophrenia’ in the introduction is arguably extraneous to the argument and direction of the paper. The authors of the reference supporting this sentence admit that their paper does not take into account the influence of antipsychotics on gastrointestinal diseases, including GI dysmotility and clozapine-induced bowel obstruction. Perhaps this statement could be omitted?

Aside these minor suggestions to the introduction, we believe that this is an excellent study protocol and we look forward to reading the results on completion of the study.

Is the rationale for, and objectives of, the study clearly described?

Yes
Is the study design appropriate for the research question?

Yes
Are sufficient details of the methods provided to allow replication by others?

Yes
Are the datasets clearly presented in a useable and accessible format?

Not applicable

Competing Interests

No competing interests were disclosed.

Reviewer Expertise

Academic Clinical Fellow in Psychiatry, University of Oxford. Studying the relationship between the gut microbiome and mental health.

We confirm that we have read this submission and believe that we have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.

Respond to this report

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[1] 1. Szeligowski T, Yun AL, Lennox BR, et al.: The Gut Microbiome and Schizophrenia: The Current State of the Field and Clinical Applications. Front Psychiatry. 2020; 11: 156. PubMed Abstract | Publisher Full Text | Free Full Text

[2] 2. Sylvia KE, Demas GE: A gut feeling: microbiome-brain-immune interactions modulate social and affective behaviors. Horm Behav. 2018; 99: 41–49. PubMed Abstract | Publisher Full Text | Free Full Text

[3] 3. Zhu B, Wang X, Li L: Human gut microbiome: the second genome of human body. Protein Cell. 2010; 1(8): 718–25. PubMed Abstract | Publisher Full Text | Free Full Text

[4] 4. Lynch SV, Pedersen O: The human intestinal microbiome in health and disease. N Engl J Med. 2016; 375(24): 2369–2379. PubMed Abstract | Publisher Full Text

[5] 5. Dinan TG, Cryan JF: Melancholic microbes: a link between gut microbiota and depression? Neurogastroenterol Motil. 2013; 25(9): 713–9. PubMed Abstract | Publisher Full Text

[6] 6. Cryan JF, O'Riordan KJ, Cowan CSM, et al.: The microbiota-gut-brain axis. Physiol Rev. 2019; 99(4): 1877–2013. PubMed Abstract | Publisher Full Text

[7] 7. Cryan JF, O’Mahony SM: The microbiome-gut-brain axis: from bowel to behavior. Neurogastroenterol Motil. 2011; 23(3): 187–92. PubMed Abstract | Publisher Full Text

[8] 8. Zhu X, Han Y, Du J, et al.: Microbiota-gut-brain axis and the central nervous system. Oncotarget. 2017; 8(32): 53829–53838. PubMed Abstract | Publisher Full Text | Free Full Text

[9] 9. O’Mahony SM, Clarke G, Borre YE, et al.: Serotonin, tryptophan metabolism and the brain-gut-microbiome axis. Behav Brain Res. 2015; 277: 32–48. PubMed Abstract | Publisher Full Text

[10] 10. Rogers GB, Keating DJ, Young RL, et al.: From gut dysbiosis to altered brain function and mental illness: mechanisms and pathways. Mol Psychiatry. 2016; 21(6): 738–48. PubMed Abstract | Publisher Full Text | Free Full Text

[11] 11. Huo R, Zeng B, Zeng L, et al.: Microbiota modulate anxiety-like behavior and endocrine abnormalities in hypothalamic-pituitary-adrenal axis. Front Cell Infect Microbiol. 2017; 7: 489. PubMed Abstract | Publisher Full Text | Free Full Text

[12] 12. Waclawiková B, El Aidy S: Role of microbiota and tryptophan metabolites in the remote effect of intestinal inflammation on brain and depression. Pharmaceuticals (Basel). 2018; 11(3): 63. PubMed Abstract | Publisher Full Text | Free Full Text

[13] 13. Stefano GB, Pilonis N, Ptacek R, et al.: Gut, Microbiome, and Brain Regulatory Axis: Relevance to Neurodegenerative and Psychiatric Disorders. Cell Mol Neurobiol. 2018; 38(6): 1197–1206. PubMed Abstract | Publisher Full Text | Free Full Text

[14] 14. Zheng P, Zeng B, Zhou C, et al.: Gut microbiome remodeling induces depressive-like behaviors through a pathway mediated by the host’s metabolism. Mol Psychiatry. 2016; 21(6): 786–96. PubMed Abstract | Publisher Full Text

[15] 15. Dash S, Clarke G, Berk M, et al.: The gut microbiome and diet in psychiatry: focus on depression. Curr Opin Psychiatry. 2015; 28(1): 1–6. PubMed Abstract | Publisher Full Text

[16] 16. Boertien JM, Pereira PAB, Aho VTE, et al.: Increasing comparability and utility of gut microbiome studies in Parkinson’s disease: a systematic review. J Parkinsons Dis. 2019; 9(s2): S297–S312. PubMed Abstract | Publisher Full Text | Free Full Text

[17] 17. Luna RA, Savidge TC, Williams KC: The brain-gut-microbiome axis: what role does it play in autism spectrum disorder? Curr Dev Disord Rep. 2016; 3(1): 75–81. PubMed Abstract | Publisher Full Text | Free Full Text

[18] 18. Saurman V, Margolis KG, Luna RA: Autism spectrum disorder as a brain-gut-microbiome axis disorder. Dig Dis Sci. 2020; 65(3): 818–828. PubMed Abstract | Publisher Full Text | Free Full Text

[19] 19. Ming X, Chen N, Ray C, et al.: A gut feeling: a hypothesis of the role of the microbiome in attention-deficit/hyperactivity disorders. Child Neurol Open. 2018; 5: 2329048X18786799. PubMed Abstract | Publisher Full Text | Free Full Text

[20] 20. Dam SA, Mostert JC, Szopinska-Tokov JW, et al.: The role of the gut-brain axis in attention-deficit/hyperactivity disorder. Gastroenterol Clin North Am. 2019; 48(3): 407–431. PubMed Abstract | Publisher Full Text

[21] 21. Nguyen TT, Kosciolek T, Maldonado Y, et al.: Differences in gut microbiome composition between persons with chronic schizophrenia and healthy comparison subjects. Schizophr Res. 2019; 204: 23–29. PubMed Abstract | Publisher Full Text | Free Full Text

[22] 22. Schwarz E, Maukonen J, Hyytiäinen T, et al.: Analysis of microbiota in first episode psychosis identifies preliminary associations with symptom severity and treatment response. Schizophr Res. 2018; 192: 398–403. PubMed Abstract | Publisher Full Text

[23] 23. Zhang X, Pan LY, Zhang Z, et al.: Analysis of gut mycobiota in first-episode, drug-naive Chinese patients with schizophrenia: A pilot study. Behav Brain Res. 2020; 379: 112374. PubMed Abstract | Publisher Full Text

[24] 24. Uher R, Zwicker A: Etiology in psychiatry: embracing the reality of poly-gene-environmental causation of mental illness. World Psychiatry. 2017; 16(2): 121–129. PubMed Abstract | Publisher Full Text | Free Full Text

[25] 25. Brugger SP, Angelescu I, Abi-Dargham A, et al.: Heterogeneity of striatal dopamine function in schizophrenia: meta-analysis of variance. Biol Psychiatry. 2020; 87(3): 215–224. PubMed Abstract | Publisher Full Text

[26] 26. McCutcheon RA, Pillinger T, Rogdaki M, et al.: Glutamate connectivity associations converge upon the salience network in schizophrenia and healthy controls. Transl Psychiatry. 2021; 11(1): 322. PubMed Abstract | Publisher Full Text | Free Full Text

[27] 27. Xu MY, Wong AHC: GABAergic inhibitory neurons as therapeutic targets for cognitive impairment in schizophrenia. Acta Pharmacol Sin. 2018; 39(5): 733–753. PubMed Abstract | Publisher Full Text | Free Full Text

[28] 28. Nguyen TT, Kosciolek T, Eyler LT, et al.: Overview and systematic review of studies of microbiome in schizophrenia and bipolar disorder. J Psychiatr Res. 2018; 99: 50–61. PubMed Abstract | Publisher Full Text | Free Full Text

[29] 29. Severance EG, Prandovszky E, Castiglione J, et al.: Gastroenterology issues in schizophrenia: why the gut matters. Curr Psychiatry Rep. 2015; 17(5): 27. PubMed Abstract | Publisher Full Text | Free Full Text

[30] 30. Saha S, Chant D, McGrath J: A systematic review of mortality in schizophrenia: is the differential mortality gap worsening over time? Arch Gen Psychiatry. 2007; 64(10): 1123–31. PubMed Abstract | Publisher Full Text

[31] 31. Obata Y, Pachnis V: The effect of microbiota and the immune system on the development and organization of the enteric nervous system. Gastroenterology. 2016; 151(5): 836–844. PubMed Abstract | Publisher Full Text | Free Full Text

[32] 32. Yano JM, Yu K, Donaldson GP, et al.: Indigenous bacteria from the gut microbiota regulate host serotonin biosynthesis. Cell. 2015; 161(2): 264–76. PubMed Abstract | Publisher Full Text | Free Full Text

[33] 33. Codagnone MG, Spichak S, O’Mahony SM, et al.: Programming bugs: microbiota and the developmental origins of brain health and disease. Biol Psychiatry. 2019; 85(2): 150–63. PubMed Abstract | Publisher Full Text

[34] 34. Dinan TG, Borre YE, Cryan JF: Genomics of schizophrenia: time to consider the gut microbiome? Mol Psychiatry. 2014; 19(12): 1252–7. PubMed Abstract | Publisher Full Text

[35] 35. Moher D, Shamseer L, Clarke M, et al.: Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Syst Rev. 2015; 4(1): 1–9. PubMed Abstract | Publisher Full Text | Free Full Text

[36] 36. Chandler J, Churchill R, Higgins J, et al.: Methodological standards for the conduct of new Cochrane Intervention Reviews. Sl: Cochrane Collaboration. 2013; 3(2): 1–14.

[37] 37. Wells G, Shea B, O’Connell D, et al.: Newcastle-Ottawa quality assessment scale cohort studies. University of Ottawa. 2014.

[38] 38. Higgins JPT, Thompson SG, Deeks JJ, et al.: Measuring inconsistency in meta-analyses. BMJ. 2003; 327(7414): 557–60. PubMed Abstract | Publisher Full Text | Free Full Text

[39] 39. Higgins JPT, Thompson SG: Quantifying heterogeneity in a meta‐analysis. Stat Med. 2002; 21(11): 1539–58. PubMed Abstract | Publisher Full Text

[40] 40. Cheng SQ, Han B, Ding M, et al.: Identifying psychiatric disorder-associated gut microbiota using microbiota-related gene set enrichment analysis. Brief Bioinform. 2020; 21(3): 1016–1022. PubMed Abstract | Publisher Full Text

[41] 41. Li S, Song J, Ke P, et al.: The gut microbiome is associated with brain structure and function in schizophrenia. Sci Rep. 2021; 11(1): 9743. PubMed Abstract | Publisher Full Text | Free Full Text

[42] 42. Liang W, Huang Y, Tan X, et al.: Alterations of glycerophospholipid and fatty acyl metabolism in multiple brain regions of schizophrenia microbiota recipient mice. Neuropsychiatr Dis Treat. 2019; 15: 3219–3229. PubMed Abstract | Publisher Full Text | Free Full Text

[43] 43. Shen Y, Xu J, Li Z, et al.: Analysis of gut microbiota diversity and auxiliary diagnosis as a biomarker in patients with schizophrenia: A cross-sectional study. Schizophr Res. 2018; 197: 470–477. PubMed Abstract | Publisher Full Text

[44] 44. Xu R, Wu B, Liang J, et al.: Altered gut microbiota and mucosal immunity in patients with schizophrenia. Brain Behav Immun. 2020; 85: 120–7. PubMed Abstract | Publisher Full Text

[45] 45. Pan R, Zhang X, Gao J, et al.: Analysis of the diversity of intestinal microbiome and its potential value as a biomarker in patients with schizophrenia: A cohort study. Psychiatry Res. 2020; 291: 113260. PubMed Abstract | Publisher Full Text

[46] 46. Nguyen TT, Kosciolek T, Daly RE, et al.: Gut microbiome in Schizophrenia: Altered functional pathways related to immune modulation and atherosclerotic risk. Brain Behav Immun. 2021; 91: 245–256. PubMed Abstract | Publisher Full Text | Free Full Text

[47] 47. Zheng P, Zeng B, Liu M, et al.: The gut microbiome from patients with schizophrenia modulates the glutamate-glutamine-GABA cycle and schizophrenia-relevant behaviors in mice. Sci Adv. 2019; 5(2): eaau8317. PubMed Abstract | Publisher Full Text | Free Full Text

[48] 48. Zhu F, Guo R, Wang W, et al.: Transplantation of microbiota from drug-free patients with schizophrenia causes schizophrenia-like abnormal behaviors and dysregulated kynurenine metabolism in mice. Mol Psychiatry. 2020; 25(11): 2905–2918. PubMed Abstract | Publisher Full Text

[49] 49. Murray N, Al Khalaf S, Kaulmann D, et al.: Extended data for 'Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review'. Zenodo. 2021. http://www.doi.org/10.5281/zenodo.5501952

Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review

Abstract

Keywords

Introduction

Objectives

Methods

Eligibility criteria

Information sources and search strategy

Selection of studies

Data extraction and management

Outcome data

Risk of bias assessment

Data synthesis and statistical analysis

Ethics

Discussion

Study status

Data availability

Contributors

References

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Compositional and functional alterations in the oral and gut microbiota in patients with psychosis or schizophrenia: A systematic review

Abstract

Keywords

Introduction

Objectives

Methods

Eligibility criteria

Information sources and search strategy

Selection of studies

Data extraction and management

Outcome data

Risk of bias assessment

Data synthesis and statistical analysis

Ethics

Discussion

Study status

Data availability

Contributors

References

Comments on this article Comments (0)

Open Peer Review

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Open Peer Review

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Reviewer Reports

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