RÉSUMÉ
(1) Background: Parkinson's disease (PD) is a relatively common and complex pathology, and some of its mechanisms remain to be elucidated. Change in host microbiota is related to the pathophysiology of numerous diseases. This systematic review aims to gather existing data on the occidental hemisphere, compare it, and search for any significant association between Parkinson's disease and gut microbiota dysbiosis. (2) Methods: Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) and Meta-analyses Of Observational Studies in Epidemiology (MOOSE) protocols were used for this systematic review. PubMed was used as the database search engine. Of the 166 studies found, only 10 were used, as they met our inclusion criteria: case-control studies, studies that assessed the correlation of PD and gut microbiome, studies that took place in occidental regions, and studies that were performed on humans and were written in English. The Newcastle-Ottawa Scale was used as the assessment tool for overall risk of bias in this systematic review. (3) Results: The studies analyzed were divided into three geographic areas: Region 1: United States of America and Canada; Region 2: Germany, Ireland, and Finland; and Region 3: Italy; based on geographical similarities among these populations. The following statistically significant results were described in PD patients, compared with non-PD controls. In the first region, a significant increase in the following bacteria was seen: 1. Phylum: Actinobacteriota and its Genus: Bifidobacterium; 2. Phylum: Verrucomicrobiota and its Genus: Akkermansia; 3. Genus: Enterococcus, Hungatella, Lactobacillus, and Oscillospira of the Phylum: Firmicutes; 4. Family: Ruminococcaceae of Phylum: Firmicutes; 5. Phylum: Bacteroidetes and its Genus: Bacteroides; 6. Phylum: Proteobacteria. A significant decrease was described in the Family: Lachnospiraceae and its Genus: Blautia, Coprococcus, and Roseburia, which belong to the Phylum: Firmicutes. In the second region, a raised number of: 1. Phylum: Verrucomicrobiota, its Genus: Akkermansia, and its Species: Akkermansia muciniphila; 2. Family: Verrucomicrobiaceae of the Phylum: Verrucomicrobiota; 3. Genus: Lactobacillus and Roseburia of the Phylum: Firmicutes; 4. Family: Lactobacillaceae of the Phylum: Firmicutes; 5. Family: Barnesiellaceae of the Phylum: Bacteroidetes; 6. Genus: Bifidobacterium of the Phylum: Actinobacteriota; 7. Species: Bilophila wadsworthia of the Phylum: Thermodesulfobacteriota, was identified. Only one Genus: Prevotella of the Phylum: Bacteroidetes was decreased. In the third and last region, an augmented number of these bacteria were found: 1. Phylum: Verrucomicrobiota and its Genus: Akkermansia; 2. Family: Bifidobacteriaceae and Coriobacteriaceae of the Phylum: Actinobacteriota; 3. Phylum: Firmicutes and its Family: Christensenellaceae and Lactobacillaceae; 4. Family: Enterococcaceae and its Genus: Enterococcus, of the Phylum: Firmicutes; 5. Genus: Lactococcus and Oscillospira, of the Phylum: Firmicutes; 6. Phylum: Proteobacteria, its Family: Enterobacteriaceae, and the Genus: Citrobacter, Klebsiella, Salmonella, and Shigella; 7. Genus: ParaBacteroides of the Phylum: Bacteroidetes. In contrast, a significant decrease in 1. Phylum: Firmicutes, its Family: Lachnospiraceae, and its Genus: Roseburia and 2. Genus: Ruminococcus of the Phylum: Firmicutes, was described. (4) Conclusion: A significant gut dysbiosis, involving multiple bacterial taxa, was found in PD patients compared to healthy people in the occidental regions. However, more studies are needed to find the precise pathophysiologic involvement of other groups of pathogens, such as fungi and parasites, in the development and progression of PD.
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Abstract Objective: In this article, the author aims to discuss and review the relationship between gut microbiota and Tourette syndrome, and whether the change in gut microbiota can affect the severity of Tourette syndrome. Sources: Literature from PubMed, Google Scholar, and China National Knowledge Infrastructure was mainly reviewed. Both original studies and review articles were discussed. The articles were required to be published as of May 2022. Summary of the findings: Current studies on the gut microbiome have found that the gut microbiome and brain seem to interact. It is named the brain-gut-axis. The relationship between the brain-gut axis and neurological and psychiatric disorders has been a topic of intense interest. Tourette syndrome is a chronic neurological disease that seriously affects the quality of life of children, and there appears to be an increase in Ruminococcaceae and Bacteroides in the gut of patients with Tourette syndrome. After clinical observation and animal experiments, there appear to be particular gut microbiota changes in Tourette syndrome. It provides a new possible idea for the treatment of Tourette syndrome. Probiotics and fecal microbial transplantation have been tried to treat Tourette syndrome, especially Tourette syndrome which is not sensitive to drugs, and some results have been achieved. Conclusions: The relationship between gut microbiota and Tourette syndrome and how to alleviate Tourette syndrome by improving gut microbiota are new topics, more in-depth and larger sample size research is still needed.
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Background: Psychological stress is a reaction to an unexpected situation that favours adaptation and response to the event. However, when psychological stress is chronic or very intense, it can induce changes in various systems and tissues, causing diseases or aggravating existing ones. Objective: To briefly analyse the pathophysiological conditions caused by psychological stress. Method: A narrative review of the scientific literature on pathophysiological conditions as a consequence of psychological stress was performed. Results: Psychological stress can induce various conditions at the gastrointestinal, immune and cardiovascular levels. This is mainly due to the neurobiological and endocrine response because when faced with a stressful stimulus, a deregulated release of glucocorticoids and catecholamines is generated, altering the normal physiology of the organism. Gastrointestinal disorders are mainly due to goblet cell dysfunction, resulting in intestinal hyperpermeability, inflammation and infection. Changes at the immune level lead to an increase in inflammatory responses but a decrease in the protective activities of the immune system. Finally, cardiovascular conditions include atherosclerosis, increased blood pressure and stroke. Conclusion: Psychological stress can induce real physiological pathologies and, in some cases, fatal ones. Some of the molecular mechanisms involved in these pathologies have already been studied and identified. Knowledge of these molecular mechanisms can help clinicians and therapists to improve the treatment and therapy of patients.
Introducción: El estrés psicológico es una respuesta a una situación inesperada que favorece la adaptación y la respuesta ante dicho evento. Sin embargo, cuando el estrés psicológico es crónico o muy intenso, se pueden desencadenar afecciones en diversos sistemas y tejidos, generando enfermedades o empeorando las ya existentes. Objetivo: Analizar brevemente las afecciones fisiopatológicas causadas por el estrés psicológico. Método: Se realizó una revisión narrativa con la literatura científica sobre las afecciones fisiopatológicas debidas al estrés psicológico. Resultados: El estrés psicológico puede desencadenar diversas afecciones a nivel gastrointestinal, inmunitario y cardiovascular. Esto se debe principalmente a la respuesta neurobiológica y endócrina, ya que ante estímulos estresores, se genera una liberación desregulada de glucocorticoides y catecolaminas que alteran la fisiología normal del organismo. Las afecciones a nivel gastrointestinal se deben principalmente a la disfunción de las células caliciformes, dando como consecuencia hiperpermeabilidad intestinal, inflamación e infecciones. Las alteraciones a nivel inmunitario generan un aumento en las respuestas inflamatorias pero una reducción en las actividades protectoras del sistema inmune. Por último, las afecciones cardiovasculares incluyen ateroesclerosis, aumento de la presión arterial y derrames cerebrales, entre otros. Conclusión: El estrés psicológico puede causar patologías fisiológicas reales y, en algunos casos, mortales. Algunos de los mecanismos moleculares implicados en estas patologías ya han sido estudiados y establecidos. Conocer estos mecanismos moleculares puede ayudar a los médicos y terapeutas a mejorar el tratamiento y la terapia del paciente.
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OBJECTIVE: In this article, the author aims to discuss and review the relationship between gut microbiota and Tourette syndrome, and whether the change in gut microbiota can affect the severity of Tourette syndrome. SOURCES: Literature from PubMed, Google Scholar, and China National Knowledge Infrastructure was mainly reviewed. Both original studies and review articles were discussed. The articles were required to be published as of May 2022. SUMMARY OF THE FINDINGS: Current studies on the gut microbiome have found that the gut microbiome and brain seem to interact. It is named the brain-gut-axis. The relationship between the brain-gut axis and neurological and psychiatric disorders has been a topic of intense interest. Tourette syndrome is a chronic neurological disease that seriously affects the quality of life of children, and there appears to be an increase in Ruminococcaceae and Bacteroides in the gut of patients with Tourette syndrome. After clinical observation and animal experiments, there appear to be particular gut microbiota changes in Tourette syndrome. It provides a new possible idea for the treatment of Tourette syndrome. Probiotics and fecal microbial transplantation have been tried to treat Tourette syndrome, especially Tourette syndrome which is not sensitive to drugs, and some results have been achieved. CONCLUSIONS: The relationship between gut microbiota and Tourette syndrome and how to alleviate Tourette syndrome by improving gut microbiota are new topics, more in-depth and larger sample size research is still needed.
Sujet(s)
Microbiome gastro-intestinal , Probiotiques , Syndrome de Tourette , Animaux , Humains , Qualité de vie , Encéphale , Probiotiques/usage thérapeutiqueRÉSUMÉ
Abstract: Recent investigations highlight the importance of the gut microbiota and bacteria-derived metabolites as key components in obesity and metabolic health. The microbiota-gut-brain axis presents promising targets for future obesity treatments and prevention. However, the current state of evidence and existing clinical applications of the microbiota-gut-brain axis have yet to be summarized in a thorough review. Therefore, we sought to examine current evidence on the effect of lifestyle, dietary, pharmacological, and surgical interventions on the microbiota-gut-brain axis. In addition, this review highlights potential next steps in research toward characterizing the role of the microbiota-gut-brain axis in metabolic health, along with possible interventions to address obesity.
Sujet(s)
Diabète de type 2 , Microbiome gastro-intestinal , Humains , Diabète de type 2/thérapie , Axe cerveau-intestin , Obésité/thérapie , Régime alimentaire , Encéphale/métabolismeRÉSUMÉ
Resumen El síndrome de intestino irritable (SII) es un trastorno caracterizado por cambios en el hábito intestinal y afecta al 30% de la población mundial. Aunque se ha encontrado una conexión entre el eje cerebro-microbiota intestinal, el desarrollo del SII y su asociación con la prevalencia de trastornos mentales, las posibles implicaciones que tienen en el hábito alimentario de las personas no son claras. Este artículo tuvo como objetivo explorar la relación entre el estrés, depresión, ansiedad, trastornos mentales y hábitos alimentarios en pacientes con SII. Se realizó una exploración bibliográfica en los motores de búsqueda PubMed, ScienceDirect y BVS. Se encontró que las personas con SII pueden presentar anormalidades en la microestructura cerebral y alteraciones en la red cerebro-intestino asociadas a una mayor duración de los síntomas gastrointestinales y el aumento de la comorbilidad afectiva. También se sugiere una relación en distintas vías entre el estrés, depresión y ansiedad, síntomas de SIII y cambios en los hábitos de alimentación. Todo lo anterior puede motivar prácticas de alimentación restrictivas, cambios en el apetito, subadecuación de nutrientes incluso en algunos casos por el mismo manejo nutricional y, en general, deterioro de la calidad de vida de las personas con SII. Se sugiere un manejo integral que no solo implique un manejo farmacológico para los síntomas de SII y los estados de ansiedad y depresión, sino que también incluya un manejo psicológico, manejo nutricional personalizado y recomendaciones de mejora de los estilos de vida como la práctica de actividad física y manejo del estrés.
Abstract Irritable bowel syndrome (IBS) is a disorder characterized by changes in bowel habits and affects 30% of the world's population. Although a connection has been found between the brain-gut microbiota axis, the development of IBS, and its association with the prevalence of mental disorders, the possible implications for people's eating habits are unclear. This article aimed to explore the relationship between stress, depression, anxiety, mental disorders, and eating habits in patients with IBS. A literature search was conducted in the PubMed, ScienceDirect, and VHL search engines. We found that people with IBS may have abnormalities in the brain microstructure and alterations in the brain-gut network associated with a longer duration of gastrointestinal symptoms and increased affective comorbidity. A relationship between stress, depression and anxiety, IBS symptoms, and changes in eating habits in different pathways is also suggested. All these may lead to restrictive eating practices, changes in appetite, nutrient inadequacy, even due to the same nutritional management in some cases, and, generally, deterioration in the quality of life of people with IBS. We recommend comprehensive management that involves not only pharmacological treatment for IBS symptoms and states of anxiety and depression but also psychological therapy, personalized nutrition, and improving lifestyles, such as physical activity and stress management.
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ABSTRACT Recent investigations highlight the importance of the gut microbiota and bacteria-derived metabolites as key components in obesity and metabolic health. The microbiota-gut-brain axis presents promising targets for future obesity treatments and prevention. However, the current state of evidence and existing clinical applications of the microbiota-gut-brain axis have yet to be summarized in a thorough review. Therefore, we sought to examine current evidence on the effect of lifestyle, dietary, pharmacological, and surgical interventions on the microbiota-gut-brain axis. In addition, this review highlights potential next steps in research toward characterizing the role of the microbiota-gut-brain axis in metabolic health, along with possible interventions to address obesity.
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A growing body of evidence from preclinical and clinical studies has associated alterations of the gut microbiota-brain axis with the progression and development of a number of pathological conditions that also affect cognitive functions. Spinal cord injuries (SCIs) can be produced from traumatic and non-traumatic causes. It has been reported that SCIs are commonly associated with anxiety and depression-like symptoms, showing an incidence range between 11 and 30% after the injury. These psychological stress-related symptoms are associated with worse prognoses in SCIs and have been attributed to psychosocial stressors and losses of independence. Nevertheless, emotional and mental modifications after SCI could be related to changes in the volume of specific brain areas associated with information processing and emotions. Additionally, physiological modifications have been recognized as a predisposing factor for mental health depletion, including the development of gut dysbiosis. This condition of imbalance in microbiota composition has been shown to be associated with depression in clinical and pre-clinical models. Therefore, the understanding of the mechanisms underlying the relationship between SCIs, gut dysbiosis and psychological stress could contribute to the development of novel therapeutic strategies to improve SCI patients' quality of life.
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Irritable bowel syndrome and inflammatory bowel disease differ in their natural evolution, etiopathogenesis, diagnostic criteria, and therapeutic approach. However, recent evidence has suggested some similarities in mechanisms underlying symptom development and progression. There is a relevant role for alterations in the microbiome-brain-gut axis in both diseases. The presence of irritable bowel syndrome symptoms in patients with quiescent inflammatory bowel disease is common in clinical practice. To determine the cause of irritable bowel syndrome symptoms in patients with quiescent inflammatory bowel disease is a clinical challenge. This review aims to illustrate possible causes and solutions for these patients.