Non-organic grains are full of #glyphosate, which is an broad spectrum #antibiotic. When we consume antibiotics daily - we destroy our gut microbiome (our immune system). Organic whole wheat gluten protects the gut.

Role of glyphosate in antimicrobial resistance
pmc.ncbi.nlm.nih.gov/articles/PMC...

A Single Round of Antibiotics Could Destroy Your Healthy Gut Bacteria for the Next 8 Years Take an antibiotic, and the drug will do its work and vanish from your bloodstream in a matter of hours. But the ecological shockwave it sends through your gut could last for the best part of a decade. Researchers in Sweden have mapped the long-term fallout of our most common life-saving drugs, and the results are rather startling. By matching ten years of national prescription records with DNA sequenced from the stool of nearly 15,000 adults, they found that a single course of certain antibiotics can alter the human microbiome for four to eight years. It is a profound disruption to the trillions of symbiotic bacteria living in our guts that shape our metabolism, drive our immune system, and underpin our overall health. Antibiotics Are Like “Carpet-Bombing” The Gut The human gut is home to a sophisticated ecosystem of trillions of bacteria and other microbes. These microscopic residents are essential to human health. When we introduce an antibiotic into this environment, the drug does not discriminate. It acts as a blunt instrument, killing both harmful and beneficial microbes alike. “Antibiotics are lifesaving medicines,” says Dr James Kinross, a colorectal surgeon and gut health scientist at Imperial College London. “But what...

A Single Round of Antibiotics Could Destroy Your Healthy Gut Bacteria for the Next 8 Years
->ZME Science | More on "Antibiotics disrupting gut microbiome long-term" at BigEarthData.ai | #Healthy #Antibiotic

This week's digest includes OHT’s Dr. Ramanan Laxminarayan's Garrod Lecture.

Check out the infographic based on the lecture and read it in the Journal of Antimicrobial Chemotherapy here: academic.oup.com/jac/article/...

More digest here: onehealthtrust.org/news-media/w...

#antibiotic #AMR #Actio

Original post on mastodon.social

16-Apr-2026
#Foxes and #birds could be ‘early warning system’ to survey spread of #antibioticResistance into #ecosystems
#Wildlife monitoring could alert us to the spread of highly #antibiotic resistant #bacteria into unexposed ecosystems, highlighting a potential #publicHealth strategy […]

Antibiotics Can 'Inflame' Bacteria, Making Infections Harder to Treat Antibiotics are designed to kill harmful bacteria and help the body recover from infection. But some antibiotics may also push bacteria to release tiny particles that can make inflammation worse. While inflammation is part of the body's natural defense against infection, too much inflammation can damage healthy tissue and interfere with healing. In severe cases, excessive inflammation can become life-threatening. These particles are called bacterial extracellular vesicles, or BEVs. These microscopic, bubble-like structures carry proteins, toxins, and other molecular signals that influence how the immune system of the host responds. Bacteria naturally release BEVs into their surroundings as a way to communicate with their environment, remove damaged cellular material, and interact with host cells. Although incredibly small, these structures can have powerful effects on the human body. When BEVs enter the bloodstream, they can interact with cells that line blood vessels and trigger an immune response. In some cases, this can increase inflammation and lead to sepsis, a condition where the body's response to infection becomes dangerously uncontrolled, damaging tissues and sometimes leading to organ failure. I am a biomedical engineer studying how bacterial extracellular vesicles influence inflammation during infection. In my recently published research, I found that certain types...

Antibiotics Can 'Inflame' Bacteria, Making Infections Harder to Treat
->ScienceAlert | More on "Antibiotics worsening bacterial infection inflammation" at BigEarthData.ai | #Antibiotic #Infection

Also at 2:30 our @emmabeansworth.bsky.social is presenting our latest update on genomic rearrangements, & the dramatic impacts this type of variation has on pathogenetic traits like #antibiotic resistance & #virulence. She maybe tiny, but the red makes her easy to find if you wanna ask her qs after😆

Irish bog plant revives ancient remedy as a new weapon vs superbugs Long before we had modern antibiotics to rely on, people often turned to traditional medicines from plants to treat infections.

Irish bog plant revives ancient remedy as a new weapon vs super bugs | #antibiotic

Policy mitigation, human drivers and health risks of antibiotics in global aquatic environments Global antibiotic consumption varies substantially between countries (Supplementary Fig. 1), with extensive use of these antibiotics for disease treatment5,23. Tetracyclines (TCs), fluoroquinolones (FQs), sulfonamides (SAs), and macrolides (MLs) are among the most commonly detected antibiotics in aquatic environment worldwide, primarily due to anthropogenic emissions2,10. Additionally, these antibiotics are widely used in livestock and aquaculture, which further exacerbates their environmental loading7. It is not surprising, therefore, that there are clear spatial differences in the total concentrations of target antibiotics (Fig. 1), driven by geographic variations in antibiotic consumption and discharge. The median concentrations of antibiotics in waters, sediments, and aquatic organisms were 111.8 ng/L, 90.71 ng/g (dw), and 42.75 ng/g (dw), respectively (Fig. 2a). The large variation in antibiotic concentrations across these environmental compartments reflects differences in the usage dose, frequency, and duration of human activities. Based on the residual levels of various antibiotics, the antibiotics were ranked, with higher concentrations indicating a higher rank (Fig. 2b–d). Fluoroquinolones (FQs), due to their frequent detection worldwide, should be given top priority24. Specifically, ciprofloxacin and norfloxacin generally have higher concentrations in waters and sediments compared to other antibiotics, while enrofloxacin is found in higher concentrations in aquatic organisms on average. However, the differences...

Policy mitigation, human drivers and health risks of antibiotics in global aquatic environments
->Nature | More on "Antibiotics contaminating global water systems" at BigEarthData.ai | #Antibiotic #Environment #Health

Antibiotic resistance in India has consequences everywhere | Aeon Essays Easy access to desperately needed drugs has made India the global accelerant of our antimicrobial resistance crisis

The #antibiotic trap ...

| #AMR | #microbiology | #publichealth | #antimicrobialresistance | #India | Via @aeon.co

New findings on the performance of anaerobic reactors: Ecotoxicological assessment of sublethal effects of antibiotic mixtures in wastewater on freshwater invertebrates The widespread occurrence of antibiotic mixtures in aquatic environments due to domestic and hospital effluents poses a significant ecotoxicological t…

New findings on the performance of anaerobic reactors: #Ecotoxicological assessment of sublethal effects of #antibiotic mixtures in #wastewater on #freshwater #invertebrates

www.sciencedirect.com/science/arti...

Biochar Innovation Breaks Down Soil Antibiotic Pollution A new study reveals how an advanced iron-modified biochar can harness the natural chemistry of soils to break down persistent antibiotic contaminants, offering a sustainable and chemical-free approach to environmental remediation. Antibiotics such as sulfamethoxazole are widely detected in agricultural soils due to manure application and wastewater reuse. These compounds can persist in the environment, contributing to antibiotic resistance and ecosystem risks. Traditional treatment methods often rely on strong chemical oxidants, which can disrupt soil health and are not well suited for low-concentration contaminants. Researchers have now developed a novel iron-modified biochar that activates naturally occurring oxygen in soils to generate highly reactive hydroxyl radicals, enabling the in situ degradation of contaminants without external chemical inputs. The findings are reported in Biochar. "This work shows that we can activate the soil's own oxidative capacity rather than relying on added chemicals," said the study's corresponding author. "By engineering biochar to regulate iron cycling and electron transfer, we create a self-sustaining system for pollutant removal." The innovation lies in designing biochar that functions simultaneously as an "electron highway" and a "redox regulator." By carefully controlling iron species and the carbon structure, the material enhances the cycling between Fe(II) and Fe(III), a key...

Biochar Innovation Breaks Down Soil Antibiotic Pollution
->Mirage News | More on "Biochar remediation soil antibiotic pollution" at BigEarthData.ai | #Antibiotic #Soil #Pollution

Fragmentomics could improve both liver and breast disease dx Volume 13, Issue 13 | April 2, 2026

ALSO IN THIS ISSUE
Match the #antibiotic to the #UTI in less than a day
#PREVENT predicts risk of more than #heartdisease
#Infectiousdisease update

open.substack.com/pub/sensitiv...

#sensitiveandspecific #diagnostics #fragmentomics #liverdisease #breastdisease #earlydetection

Antibiotics and Immunotherapy in Melanoma | Docwire News Antibiotic use during immune checkpoint inhibitor therapy may be associated with improved overall survival among patients with advanced melanoma.

What is the impact of #antibiotic use on #immunotherapy for #melanoma? Check out the results of a retrospective study from Dr Vincent Ma (@uwmadison.bsky.social) at the link!
#Dermatology #Oncology #SkinCancer

www.docwirenews.com/post/impact-...

Glyphosate is a broad spectrum #antibiotic. You cannot consume broad spectrum antibiotics every day all life long and then blame #gluten or lack of #protein for everything.

Original post on mindly.social

Rabbit folks...

George started displaying symptoms of his upper respiratory infection coming back. The vet had previously said that he might live the rest of his life with a low-level infection, but I don't know if this counts as low-level, so I'm taking him back to the vet tomorrow, the […]

UK farmers lobbied government over controversial antibiotic use Union called for a rejection of EU’s stricter rules despite rising concerns over drug-resistant superbugs

UK #farmers lobbied government over controversial #antibiotic use - www.thebureauinvestigates.com/stories/2026... stupid farmers being selfish as usual

Forget Antibiotics: These Killer Cells Wipe Out Deadly Superbugs in a Day A mixture of bacteria lounge in a dish. Like the bugs populating our guts, most are benign or beneficial. But a deadly strain hides among them. These bacteria can easily escape last-line antibiotics, rapidly spread, and cause mayhem. But in this case, a single dose of genetically engineered cells hunts them down and wipes out nearly the entire population in a day, while leaving all the other harmless cells alone. This strategy, called minicell therapy, fights fire with fire: Researchers engineer hunter cells by stripping bacteria of the ability to replicate and then genetically loading them up with proteins to home in on dangerous foes. The cells grab their targets and inject toxins into them, releasing a hurricane of chemicals that causes the bacteria’s insides to collapse. Developed by a team at the University of Oxford, the approach is completely different than current defenses against bacteria, making it harder for dangerous bugs to develop resistance. It’s also fairly simple to reprogram the engineered cells to target different bacterial strains. The work shows how synthetic biology can bring wholly new weapons to the fight against deadly bacteria resistant to antibiotics, the authors wrote. Brewing Crisis Antimicrobial resistance is a critical global...

Forget Antibiotics: These Killer Cells Wipe Out Deadly Superbugs in a Day
->SingularityHub | More on "Engineered cells defeating antibiotic-resistant bacteria" at BigEarthData.ai | #Antibiotic

New Antibiotic Alternative Fights Foodborne Salmonella Researchers from China have identified a novel bacteriophage that offers a highly promising “green” biocontrol solution against foodborne Salmonella. The study was published in Applied and Environmental Microbiology, a journal of the American Society for Microbiology. This study was conducted to address the severe challenges posed by antimicrobial-resistant Salmonella to global food safety and public health. Conventional disinfection methods often fail to effectively eliminate the stubborn biofilms formed by Salmonella on food and food-processing equipment surfaces, and the overuse of antibiotics has further accelerated the emergence of drug-resistant strains. There is an urgent need to develop novel, targeted and sustainable alternative antibacterial strategies. Lytic bacteriophages, viruses capable of specifically lysing bacteria, offer a highly promising solution. In the new study, the researchers isolated bacteriophages that target Salmonella from wastewater and selected the most effective one, phage W5, from multiple candidates. The researchers characterized W5's morphology, stability under various conditions, growth kinetics and genomic sequence to confirm its efficacy and safety. They also evaluated W5's ability to reduce Salmonella and disrupt biofilms on foods (milk, meat, eggs) and food-contact surfaces under realistic storage conditions. “We discovered a safe and highly effective natural virus (bacteriophage W5) that functions like a precision-guided missile,...

New Antibiotic Alternative Fights Foodborne Salmonella
->Technology Networks | More info at BigEarthData.ai | #Antibiotic

Here's some new dirt on an unusual source of antibiotic resistance New research suggests drought can stoke antibiotic resistance in soil bacteria — and that can have an impact on humans.

Here's some new #dirt on an unusual source of #antibiotic resistance ...

| #bacteria | #microbiology | #antibioticresistance | #soils | #Drought | By @jonlambert.bsky.social via @npr.org

A I-designed compounds can kill drug-resistant bacteria An MIT team used artificial intelligence to design novel antibiotics, two of which showed promise against MRSA and gonorrhea.

Gay Agenda tracks news relevant to Gay health. #gay #antibiotic
www.technologyreview.com/2025/10/21/1...

Developing an antibiotic reservoir to prevent post-surgical infections Nearly one in 10 people who are implanted with a surgical fix to their spine will develop a serious bacterial infection, despite prophylactic antibiotic treatment. In a recent study published in the…

Developing an #antibiotic reservoir to prevent post-surgical #infections ...

| #bacteria | #microsky | #infection | #pathogens | #drugs | #surgery | By @jeffersonuniv.bsky.social via @sciencex.bsky.social

medicalxpress.com/news/2026-03...

New antibiotic alternative fights foodborne Salmonella Antimicrobial-resistant Salmonella poses severe challenges to global food safety and public health. Researchers from China have now identified a novel bacteriophage that offers a highly promising…

New #antibiotic alternative fights #foodborne #Salmonella ...

| #infections | #microbiology | #bacteria | #Antimicrobialresistance | #bacteriophage | By @asm.org via @sciencex.bsky.social

phys.org/news/2026-03...

Smart wound dressing delivers antibiotics to speed up healing Biomedical engineers have developed a new wound dressing material that releases antibiotic drugs only when harmful bacteria are present in a wound. In a new study, the researchers show that the material could help rapidly clear wound infections to accelerate healing while reducing the unnecessary use of antibiotics—a major driver of antibiotic resistance and hard-to-treat “superbug” infections that claim tens of thousands of lives worldwide each year. The new material is a smart hydrogel loaded with an antibiotic cargo that can be placed directly on a wound under a bandage. The hydrogel is sensitive to an enzyme produced by many different types of harmful bacteria. When the enzyme is present, the hydrogel starts to degrade, releasing the antibiotics trapped inside. But when no harmful bacteria are present, the hydrogel stays intact, safely locking its antibiotic cargo away. “Antimicrobial resistance is a major problem worldwide, so we need better approaches for how we use antibiotics,” says Anita Shukla, a professor in Brown University’s School of Engineering who led the development of the smart hydrogel. “We’ve developed a material that releases antibiotics only when harmful bacteria are present, so it limits exposure to antibiotics when they’re not needed but still provides these...

Smart wound dressing delivers antibiotics to speed up healing
->Futurity | More on "Smart hydrogel antibiotic wound dressing" at BigEarthData.ai | #Antibiotic

Here's some new dirt on an unusual source of antibiotic resistance New research suggests drought can stoke antibiotic resistance in soil bacteria — and that can have an impact on humans.

Here's some new #dirt on an unusual source of #antibiotic #resistance

www.npr.org/2026/03/27/g...

Detecting bacterial infection with simple breath test Scientists at St. Jude Children’s Research Hospital and the University of California, San Francisco used a naturally occurring carbon isotope and exhaled CO₂ to catch bacterial infections.

Bacterial #infections can be difficult to distinguish from viral infections and noninfectious inflammation, but a simple breath #test may change that. New research from 🇺🇸 @stjuderesearch.bsky.social and @ucsanfrancisco.bsky.social has the potential to reduce unnecessary #antibiotic prescriptions.

Wildflower folk remedy shows modern potential for tackling antibiotic resistance Scientists have proven that a wildflower steeped in folklore for its medicinal powers has genuine healing qualities—and the potential to help combat antibiotic resistance. Tormentil, a yellow…

#Wildflower #folk #remedy shows modern potential for tackling #antibiotic resistance ...

| #antibioticresistance | #infections | #microbiology | #pathogens | #Tormentil | By @unisouthampton.bsky.social via @sciencex.bsky.social

Drought may promote antibiotic resistance in soil, study suggests Researchers say the findings reveal an “underrecognized link between climate factors and antibiotic resistance.”

Drought promotes #antibiotic #resistance. #AMR
www.cidrap.umn.edu/antimicrobia...

JAMA, Journal of the American Medical Association, March 24/31, 2026. Includes research on antibiotic therapy for acute appendicitis@1041, oral nalbuphine for pulmonary fibrosis@1050, and hepatitis B vaccination rates@1086.

📌 Editor’s Choice from this week's issue of JAMA:

➡️ #Antibiotic Therapy for Uncomplicated Acute #Appendicitis,
➡️ Type 1 #Diabetes, and more.

ja.ma/4rT6gcP

Climate change propels antibiotic resistance from soils into hospitals - Nature Microbiology Drought conditions concentrate natural antibiotics in soil, intensifying selection for resistant microorganisms. A global analysis links arid climates to higher clinical resistance rates, revealing a ...

‘ #Climate change propels #antibiotic resistance from soils into hospitals’

www.nature.com/articles/s41...

In the journal mLife, the study demonstrates that numerous genes modulate the antibiotic survival of bacterial persister cells, a major contributor to recurrent and chronic bacterial infections.
#Antibiotic uptake #ATP
Details: doi.org/10.1002/mlf2...