Current Status and Prospects of Spontaneous Peritonitis in Patients with Cirrhosis

The worldwide popularity of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy to treat or prevent the hospital acquired infections (nosocomial infections) arose a great interest in the medical community around the world (Reddy and Reddy, 2016; 2017). The following questions were raised on this subject: Does Multiple Mixed Strain Probiotics directly inhibit the pathogenic bacteria (C. diff) in the gastrointestinal tract or indirectly through modulation of the host immune system or both? To be more specific, what is the exact and/or hypothetical mechanism at molecular level behind the breakthrough discovery of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy? To answer these questions, the specific immunomodulation regulatory functions of the individual Probiotic strains (on host) have beenresearched, investigated andoutlined in this article. A detailed explanation(s) and hypotheses have been proposed outlining the possible cumulativedirect bacteriological and indirect immunomodulatory effects (at the molecular level) of the Multiple Mixed Strain Probiotics used in Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy to successfully treat C. diff infection. A detailed scientific and research attempts were made to correlate the Probiotic induced immune activities in relation to the reduction of the symptoms associated with the hospital acquired Clostridium difficile infection during and after the Multiple Mixed Strain Probioitc Therapy. Results of the clinical trials, microbiological tests on feces, and the clinical blood tests significantly revealed that the reasons for the success of Dr. Reddy’s Multiple Mixed Strain Probiotic Therapy are multifold. Presumably, it is predominantly due to the immunomodulatory effect they have exerted on the host immune system along with the direct inhibition of C. diff bacteria by multiple Probiotics, due to the production of bacteriocins, lactic acid and nutritional competency.In addition, the size of the individual cells of the Probiotic strains in the Multiple Mixed Strain Probiotics and their significant effect on immunomodulation has been thoroughly discussed. Results clearly proved that if Probiotics are absent in the GI tract during C. diff infection, the chances of patient survival is zero. This is because of the excess immune stimulation and incurable damage to the epithelial cell barrier of the gastrointestinal tract caused by C. diff bacteria. The results also revealed, without any doubt, as of to-datethe latest discovery of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy is the best way to cure the deadly hospital acquired infections affecting millions of people around the world, with high degree of mortality. This has been attested by several practicng medical professionals and scientists around the world (Reddy and Reddy, 2017).

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Screening of active antimicrobial and biological enzymes of microbial isolated from soil in Thailand

Asian Journal of Pharmaceutical and Clinical Research ◽

10.22159/ajpcr.2017.v10i4.15454 ◽

2017 ◽

Vol 10 (4) ◽

pp. 73 ◽

Cited By ~ 1

Author(s):

Pannapa Powthong ◽

Apichai Sripean ◽

Pattra Suntornthiticharoen

Keyword(s):

Pathogenic Bacteria ◽

Soil Microorganisms ◽

Extracellular Enzyme ◽

Antimicrobial Activities ◽

Lipase Production ◽

Resistant Bacteria ◽

Strong Activity ◽

Preliminary Screening ◽

Soil Microbial ◽

Drug Resistant Bacteria

Objective: The objectives of this study were to isolate microorganisms and screen for potential antimicrobial activities from the soil. Methods: In this study, a total of 425 isolates were isolated from 100 soil samples. The preliminary screening for antimicrobial activities of these isolates was performed by modified cross-streak, agar diffusion, and modified icrodilution technique against 16 pathogenic bacteria and fungi.Results: In the anti-microbial activity, there were three isolates, namely, 277, 303, and 307 exhibited inhibitory activity against methicillin-resistantStaphylococcus aureus and Salmonella typhimurium respectively. This study also examined the various enzymes producing from soil microorganisms including chitinase, chitosanase, amylase, cellulose, caseinase, gelatinase, esterase, and lipase production of different selective media for 24 and 48hrs using the direct spot method. The results revealed that 28 isolates could produce various enzymes with strong activity. Most of them produced gelatinase (5.65%) and caseinase (5.18%). There were four isolates that produce broad-spectrum enzyme. In addition, the investigation of selectedmicroorganism identification showed that they can be divided into three groups: Burkholderia spp., Pseudomonas spp., and Rhodococcus spp.Conclusion: This study demonstrated that the microorganisms from soil are capable of producing potential, antibacterial, and bioactive enzymes.Keywords: Antimicrobial activity, Extracellular enzyme, Soil microbial, Drug-resistant bacteria.

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Are mobile phones of health care workers portals of pathogenic organisms causing hospital acquired infections in intensive care units? A mini systematic review

Nigerian Journal of Paediatrics ◽

10.4314/njp.v47i3.3 ◽

2020 ◽

Vol 47 (3) ◽

pp. 207-214

Author(s):

M. Mukhtar-Yola ◽

B. Andrew

Keyword(s):

Health Care ◽

Intensive Care ◽

Intensive Care Units ◽

Mobile Phones ◽

Health Care Workers ◽

Pathogenic Bacteria ◽

Cross Sectional ◽

Hospital Acquired Infections ◽

Care Workers ◽

Hospital Acquired

Background: Health care workers at the bedside of critically ill babies freely carry their mobile phones in between procedures and handling patients. Concerns are rising as this may contribute to nosocomial infections with pathogenic bacteria. Aim: To determine if mobile phones of health care workers in Intensive care units carry potentially pathogenic bacteria leading to hospital acquired infections. Design: Systematic review.Data sources: Electronic databases (Medline via ovid, CINAHL, Web of science) and hand Searching of references and citations were done to identify studies. Screening and inclusion criteria were used to identify studies with a cross-sectional or cohort design. The search was limited to journal articles published between 2008-2015 and to English language. Quality assessment was done using the National Institute of Health tool for observational studies. Data was extracted on to excel sheets and analysed using SPSS version 22.Results: Six studies with a cohort (1) or cross-sectional design (5) involving 1, 131 health care workers were reviewed. The overall quality of the studies was fair, and a narrative synthesis was done. The colonization rate of the mobile phones ranged between 46.3 % and a 100% with 13-50% carrying potentially pathogenic multidrug resistant microorganisms. Methicillin resistant staphylococcus aureus, Vancomycine resistant enterococci, acinobacter and coagulase negative staphylococci were reported across all studies and were recognized as leading causes of morbidity and mortalityin the ICU. Conclusion: Mobile phones Of HCW are portals of potentially pathogenic microorganisms, which could result in morbidity and mortality.Although no causal relationship could be established, strong associations have been reported. Guidelines by hospital infection control committees are needed on restriction, care and routine cleaning of mobile phones as well as further research. Key words: Health care worker, Intensive care unit, Hospital Acquired Infections, mobile phones

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Targeted-Antibacterial-Plasmids (TAPs) combining conjugation and CRISPR/Cas systems achieve strain-specific antibacterial activity

10.1101/2020.10.12.335968 ◽

2020 ◽

Author(s):

Audrey Reuter ◽

Cécile Hilpert ◽

Annick Dedieu-Berne ◽

Sophie Lematre ◽

Erwan Gueguen ◽

...

Keyword(s):

Antibacterial Activity ◽

Pathogenic Bacteria ◽

Bacterial Species ◽

Carbapenem Resistance ◽

Double Strand Breaks ◽

Resistant Bacteria ◽

Innovative Strategy ◽

Strand Breaks ◽

Drug Resistant Bacteria

AbstractThe global emergence of drug-resistant bacteria leads to the loss of efficacy of our antibiotics arsenal and severely limits the success of currently available treatments. Here, we developed an innovative strategy based on Targeted-Antibacterial-Plasmids (TAPs) that use bacterial conjugation to deliver CRISPR/Cas systems exerting a strain-specific antibacterial activity. TAPs are highly versatile as they can be directed against any specific genomic or plasmid DNA using the custom algorithm (CSTB) that identifies appropriate targeting spacer sequences. We demonstrate the ability of TAPs to induce strain-selective killing by introducing lethal double strand breaks (DSBs) into the targeted genomes. TAPs directed against a plasmid-born carbapenem resistance gene efficiently resensitise the strain to the drug. This work represents an essential step towards the development of an alternative to antibiotic treatments, which could be used for in situ microbiota modification to eradicate targeted resistant and/or pathogenic bacteria without affecting other non-targeted bacterial species.

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The microbiology of pleural infection in adults: a systematic review

European Respiratory Journal ◽

10.1183/13993003.00542-2019 ◽

2019 ◽

Vol 54 (3) ◽

pp. 1900542 ◽

Cited By ~ 5

Author(s):

Maged Hassan ◽

Tamsin Cargill ◽

Elinor Harriss ◽

Rachelle Asciak ◽

Rachel M. Mercer ◽

...

Keyword(s):

Systematic Review ◽

Geographical Location ◽

Paediatric Population ◽

Antimicrobial Treatment ◽

Synthesis Methods ◽

Viridans Streptococci ◽

Eligibility Criteria ◽

Hospital Acquired Infections ◽

Pleural Infection ◽

Hospital Acquired

Background and objectivesPleural infection is a major cause of morbidity and mortality among adults. Identification of the offending organism is key to appropriate antimicrobial therapy. It is not known whether the microbiological pattern of pleural infection is variable temporally or geographically. This systematic review aimed to investigate available literature to understand the worldwide pattern of microbiology and the factors that might affect such pattern.Data sources and eligibility criteriaOvid MEDLINE and Embase were searched between 2000 and 2018 for publications that reported on the microbiology of pleural infection in adults. Both observational and interventional studies were included. Studies were excluded if the main focus of the report was paediatric population, tuberculous empyema or post-operative empyema.Study appraisal and synthesis methodsStudies of ≥20 patients with clear reporting of microbial isolates were included. The numbers of isolates of each specific organism/group were collated from the included studies. Besides the overall presentation of data, subgroup analyses by geographical distribution, infection setting (community versus hospital) and time of the report were performed.ResultsFrom 20 980 reports returned by the initial search, 75 articles reporting on 10 241 patients were included in the data synthesis. The most common organism reported worldwide was Staphylococcus aureus. Geographically, pneumococci and viridans streptococci were the most commonly reported isolates from tropical and temperate regions, respectively. The microbiological pattern was considerably different between community- and hospital-acquired infections, where more Gram-negative and drug-resistant isolates were reported in the hospital-acquired infections. The main limitations of this systematic review were the heterogeneity in the method of reporting of certain bacteria and the predominance of reports from Europe and South East Asia.ConclusionsIn pleural infection, the geographical location and the setting of infection have considerable bearing on the expected causative organisms. This should be reflected in the choice of empirical antimicrobial treatment.

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Avoiding ventilator-associated pneumonia: Curcumin-functionalized endotracheal tube and photodynamic action

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2006759117 ◽

2020 ◽

Vol 117 (37) ◽

pp. 22967-22973

Author(s):

Amanda C. Zangirolami ◽

Lucas D. Dias ◽

Kate C. Blanco ◽

Carolina S. Vinagreiro ◽

Natalia M. Inada ◽

...

Keyword(s):

Endotracheal Tube ◽

Bacterial Infections ◽

Bacterial Resistance ◽

Multidrug Resistant ◽

Resistant Bacteria ◽

Ventilator Associated Pneumonia ◽

Hospital Acquired Infection ◽

Hospital Acquired Infections ◽

Hospitalization Costs ◽

Hospital Acquired

Hospital-acquired infections are a global health problem that threatens patients’ treatment in intensive care units, causing thousands of deaths and a considerable increase in hospitalization costs. The endotracheal tube (ETT) is a medical device placed in the patient’s trachea to assist breathing and delivering oxygen into the lungs. However, bacterial biofilms forming at the surface of the ETT and the development of multidrug-resistant bacteria are considered the primary causes of ventilator-associated pneumonia (VAP), a severe hospital-acquired infection for significant mortality. Under these circumstances, there has been a need to administrate antibiotics together. Although necessary, it has led to a rapid increase in bacterial resistance to antibiotics. Therefore, it becomes necessary to develop alternatives to prevent and combat these bacterial infections. One possibility is to turn the ETT itself into a bactericide. Some examples reported in the literature present drawbacks. To overcome those issues, we have designed a photosensitizer-containing ETT to be used in photodynamic inactivation (PDI) to avoid bacteria biofilm formation and prevent VAP occurrence during tracheal intubation. This work describes ETT’s functionalization with curcumin photosensitizer, as well as its evaluation in PDI against Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli. A significant photoinactivation (up to 95%) against Gram-negative and Gram-positive bacteria was observed when curcumin-functionalized endotracheal (ETT-curc) was used. These remarkable results demonstrate this strategy’s potential to combat hospital-acquired infections and contribute to fighting antimicrobial resistance.

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Advances in Optical Detection of Human-Associated Pathogenic Bacteria

Molecules ◽

10.3390/molecules25225256 ◽

2020 ◽

Vol 25 (22) ◽

pp. 5256

Author(s):

Andrea Locke ◽

Sean Fitzgerald ◽

Anita Mahadevan-Jansen

Keyword(s):

Pathogenic Bacteria ◽

Optical Detection ◽

Diagnostic Techniques ◽

Laser Speckle ◽

Resistant Bacteria ◽

In Vivo Detection ◽

Drug Resistant Bacteria ◽

Detection And Identification ◽

Free Environment

Bacterial infection is a global burden that results in numerous hospital visits and deaths annually. The rise of multi-drug resistant bacteria has dramatically increased this burden. Therefore, there is a clinical need to detect and identify bacteria rapidly and accurately in their native state or a culture-free environment. Current diagnostic techniques lack speed and effectiveness in detecting bacteria that are culture-negative, as well as options for in vivo detection. The optical detection of bacteria offers the potential to overcome these obstacles by providing various platforms that can detect bacteria rapidly, with minimum sample preparation, and, in some cases, culture-free directly from patient fluids or even in vivo. These modalities include infrared, Raman, and fluorescence spectroscopy, along with optical coherence tomography, interference, polarization, and laser speckle. However, these techniques are not without their own set of limitations. This review summarizes the strengths and weaknesses of utilizing each of these optical tools for rapid bacteria detection and identification.

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Extreme Dysbiosis of the Microbiome in Critical Illness

mSphere ◽

10.1128/msphere.00199-16 ◽

2016 ◽

Vol 1 (4) ◽

Cited By ~ 120

Author(s):

Daniel McDonald ◽

Gail Ackermann ◽

Ludmila Khailova ◽

Christine Baird ◽

Daren Heyland ◽

...

Keyword(s):

Critical Illness ◽

Organ Failure ◽

Patient Outcomes ◽

Pathogenic Bacteria ◽

Hospital Acquired Infections ◽

Icu Admission ◽

Health Promoting ◽

Hospital Acquired ◽

Improve Patient ◽

Normal Health

ABSTRACT Critical illness may be associated with the loss of normal, “health promoting” bacteria, allowing overgrowth of disease-promoting pathogenic bacteria (dysbiosis), which, in turn, makes patients susceptible to hospital-acquired infections, sepsis, and organ failure. This has significant world health implications, because sepsis is becoming a leading cause of death worldwide, and hospital-acquired infections contribute to significant illness and increased costs. Thus, a trial that monitors the ICU patient microbiome to confirm and characterize this hypothesis is urgently needed. Our study analyzed the microbiomes of 115 critically ill subjects and demonstrated rapid dysbiosis from unexpected environmental sources after ICU admission. These data may provide the first steps toward defining targeted therapies that correct potentially “illness-promoting” dysbiosis with probiotics or with targeted, multimicrobe synthetic “stool pills” that restore a healthy microbiome in the ICU setting to improve patient outcomes. Critical illness is hypothesized to associate with loss of “health-promoting” commensal microbes and overgrowth of pathogenic bacteria (dysbiosis). This dysbiosis is believed to increase susceptibility to nosocomial infections, sepsis, and organ failure. A trial with prospective monitoring of the intensive care unit (ICU) patient microbiome using culture-independent techniques to confirm and characterize this dysbiosis is thus urgently needed. Characterizing ICU patient microbiome changes may provide first steps toward the development of diagnostic and therapeutic interventions using microbiome signatures. To characterize the ICU patient microbiome, we collected fecal, oral, and skin samples from 115 mixed ICU patients across four centers in the United States and Canada. Samples were collected at two time points: within 48 h of ICU admission, and at ICU discharge or on ICU day 10. Sample collection and processing were performed according to Earth Microbiome Project protocols. We applied SourceTracker to assess the source composition of ICU patient samples by using Qiita, including samples from the American Gut Project (AGP), mammalian corpse decomposition samples, childhood (Global Gut study), and house surfaces. Our results demonstrate that critical illness leads to significant and rapid dysbiosis. Many taxons significantly depleted from ICU patients versus AGP healthy controls are key “health-promoting” organisms, and overgrowth of known pathogens was frequent. Source compositions of ICU patient samples are largely uncharacteristic of the expected community type. Between time points and within a patient, the source composition changed dramatically. Our initial results show great promise for microbiome signatures as diagnostic markers and guides to therapeutic interventions in the ICU to repopulate the normal, “health-promoting” microbiome and thereby improve patient outcomes. IMPORTANCE Critical illness may be associated with the loss of normal, “health promoting” bacteria, allowing overgrowth of disease-promoting pathogenic bacteria (dysbiosis), which, in turn, makes patients susceptible to hospital-acquired infections, sepsis, and organ failure. This has significant world health implications, because sepsis is becoming a leading cause of death worldwide, and hospital-acquired infections contribute to significant illness and increased costs. Thus, a trial that monitors the ICU patient microbiome to confirm and characterize this hypothesis is urgently needed. Our study analyzed the microbiomes of 115 critically ill subjects and demonstrated rapid dysbiosis from unexpected environmental sources after ICU admission. These data may provide the first steps toward defining targeted therapies that correct potentially “illness-promoting” dysbiosis with probiotics or with targeted, multimicrobe synthetic “stool pills” that restore a healthy microbiome in the ICU setting to improve patient outcomes. Podcast: A podcast concerning this article is available.

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