An overview on Pyogenic Liver Abscess

Batabyal, Biswajit

doi:10.21276/ijrdpl.2278-0238.2017.6(6).2793-2795

Cited by 2 publications

(2 citation statements)

References 5 publications

(7 reference statements)

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“…Bacteria of the genus Azospirillum provide benefits to inoculated plants due to their ability to fix atmospheric nitrogen and their ability to synthesize phytohormones, especially indoleacetic acid. They give plants tolerance to biotic and abiotic stress that can be mediated through the action of phytohormones that act as signaling molecules (Batabyal, 2021). The mechanisms triggered by bacteria of the genus Azospirillum in plants can help in the search for a more sustainable agriculture, providing new practices and enabling the use of bacteria that promote plant growth as an important strategy to mitigate the effects of abiotic stresses on agricultural productivity (Tarrand et al al., 1978;Santos et al, 2021).…”

Section: Theoretical Frameworkmentioning

confidence: 99%

Germination and Initial Development of Calendula Officinallis as a Function of Seed Treatment with Promoter Bacteria

Cruz,

Carvalho,

Silva

et al. 2024

RGSA

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Objective: The study aims to evaluate the agronomic efficiency of different dosages and modes of application of inoculants based on Bacillus subtilis, Azospirillum brasilense, and Pseudomonas fluorescens in marigold plants, focusing on seed germination aspects and initial plant development. Method: The research was conducted in two stages, including seed germination tests in the laboratory and evaluation of plant development in the field. Treatments were applied at different dosages and modes of application, with appropriate experimental design and statistical analysis of the data. Research results and discussions: The results demonstrate that inoculation with growth-promoting microorganisms positively influenced the shoot length, root length, number of flowers, and fresh flower mass of marigold plants. Application of Bacillus subtilis yielded the best results in various variables, while the combination of seed treatment and foliar application provided the best results in fresh and dry root mass. The interaction between growth promoters and application modes also influenced the chlorophyll content of the plant leaves. Research implications: The results indicate that inoculation with the studied microorganisms may be a viable alternative to enhance the agronomic performance of marigold, providing benefits such as increased fresh flower mass, flower quantity, and root length. This suggests the potential of these microorganisms as biological agents for plant growth promotion. Originality/Value: This study contributes to the understanding of the agronomic effectiveness of different growth-promoting microorganisms in marigold plants, highlighting the importance of bacterial inoculation in plant development and providing insights for more sustainable agricultural practices.

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Section: Theoretical Frameworkmentioning

confidence: 99%

Germination and Initial Development of Calendula Officinallis as a Function of Seed Treatment with Promoter Bacteria

Cruz,

Carvalho,

Silva

et al. 2024

RGSA

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“…By using the power of individualized microbiota profiling, probiotic treatments can be made to address particular health problems and support a healthier microbial environment. To unlock the full potential of personalized probiotics and change patient care based on the microbiota-host relationship, more study, technological advances, and partnerships between different fields are needed [9][10][11][12][13] .…”

Section: Immune System Dysregulationmentioning

confidence: 99%

<strong>Probiotics Change the Microbiota: From the Lab to the Bedside</strong>

Patil¹,

Singh²

2023

Preprint

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Probiotics have become a potential way to change the microbiota, which allows for more personalized ways to improve health results. This abstract gives an outline of the most important parts of personalized microbiota regulation through probiotics. It focuses on effectiveness and mechanisms, clinical applications, safety and tolerability, formulations and delivery methods, and customized approaches. Many studies have looked into how and why probiotics change the microbiome. These studies show that probiotics can change the makeup and function of microbial communities. Probiotics have been shown to help treat a number of health problems, such as digestive problems, immune system problems, metabolic problems, and mental health problems. It is important for the success of probiotics to find out if they are safe and can be tolerated. Studies have shown that probiotics are usually safe for most people, but there are some things that need to be taken into account to make sure they are safe, especially for people who are weak. Formulations and transport methods are very important for making sure that probiotics are alive, stable, and delivered to the right places in the GI tract. Probiotic strains work better in the gut because of improvements in how probiotic preparation technologies protect and control the release of probiotic strains. Personalized methods take into account how each person's microbiome and health are different. By using individual microbiota profiling, custom probiotic approaches can be made to address specific microbial imbalances and promote a healthier microbial environment, which could improve treatment results. Even though individual methods show promise, there are still problems, such as the need to standardize microbiota profiling techniques, figure out how to understand data, and keep track of people over time. For personalized probiotics to reach their full potential and change the way patients are cared for based on the microbiota-host relationship, more study, technological advances, and teamwork are needed. In conclusion, probiotics can be used to change your microbiome in a way that is specific to you and your health goals. By using the power of individualized microbiota profiling, personalized probiotic treatments might be able to help with certain health problems and make the microbial environment better. Putting personalized probiotics into clinical practice and changing the way patients are cared for will require more study and partnerships between different fields.

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An overview on Pyogenic Liver Abscess

Cited by 2 publications

References 5 publications

Germination and Initial Development of Calendula Officinallis as a Function of Seed Treatment with Promoter Bacteria

Germination and Initial Development of Calendula Officinallis as a Function of Seed Treatment with Promoter Bacteria

<strong>Probiotics Change the Microbiota: From the Lab to the Bedside</strong>

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