Did you know, #phages aren’t motile and move only through random Brownian motion or fluid dynamics? Despite this, they skilfully capture moving bacteria using their spiked tail fibres, latching onto the host cell before injecting their genetic material. 🦠 #Bacteria #Science

The world risks returning to a pre-antibiotic era as bacteria become increasingly resistant to drugs.🦠 Phages are being harnessed to combat this threat. Our patented technology enables mass-scale #phage treatments, potentially saving millions of lives in the fight against #AMR.

This is interesting… Researchers have created a high-throughput phage screening platform for rapid target identification in personalised phage therapy. This could significantly improve testing & treatment of superbugs. Read the full study in nature: go.nature.com/3YzRRHp

Phages are highly specific to their bacterial hosts, making them a powerful tool against infections without disrupting beneficial bacteria. 🌟 Phage therapy precisely targets harmful bacteria while leaving our microflora intact -unlike antibiotics. #PhageTherapy #GutHealth #AMR

#AMR is a major threat, with an estimated 10 million lives at risk annually by 2050. ⚠️ The solution? Embracing alternative treatments, including #phagetherapy. We're committed to developing large-scale #phage solutions to combat harmful infections. Learn more on our website.

Could climate change be driving us towards a pre-antibiotic era? 🌡️ Salon reports extreme heat is boosting bacterial reproduction and drug resistance, highlighting the urgent need for innovative phage-based treatments. Read more: bit.ly/4dCU3lI #ClimateChange #Phages

A phage’s #DNA is encased in a capsid – a type of protein shell. 🧬 The capsid serves several critical functions, but most importantly it protects the phage’s viral genetic material from enzymes and other environmental factors. #Bacteriophage #Phage #Science

We’re on a mission to tackle #AMR with sustainable phage-based solutions. 🌍 🧪 Our patented technology allows phages to irreversibly bind to almost any surface, ensuring stability and effectiveness against specific bacteria for years – rather than days. #PhageTherapy #Phage

“Successfully commercialising bacteriophage-based products hinges on a multidimensional strategy.” In our blog, we explore industry advancements, regulatory hurdles and key considerations for bringing #phage products to market. 🧫 Have a read: bit.ly/4dgLE7Z

Did you know phages are harvested from diverse natural environments like soil, rivers, and oceans? 🌱🌊 These ecosystems offer a rich variety of phages, allowing us to isolate those that target specific bacteria. #Phage #Bacteria #Environment #Science

Bacteriophages are the most abundant biological entities on Earth, outnumbering bacteria by at least 10 to 1. By harnessing the natural specificity of phages, we're committed to developing innovative treatments that address the escalating challenge of #AMR. #PhageTherapy #Phage

This could be a game-changer for cancer treatment👇 #Phage design, a technology that repurposes bacteriophages into highly precise therapeutic and diagnostic tools, allows for the targeting and destruction of tumour cells. Have a read: bit.ly/3APCh0N #CancerTherapy

Did you know #bacteriophages play a key role in the marine food web? 🐳 When they destroy bacteria, nutrients are released into the water. This fuels the growth of phytoplankton, which go on to feed other ocean life. #MarineFoodWeb #Phages #Science #OceanLife

Bacteria are increasingly resistant to drugs – our mission is to discover, develop and deliver pioneering #phage treatments to tackle this growing problem. 💉 Our approach spans research, manufacturing, product development and phage commercialisation – follow our journey. #AMR

Phages show great promise for tackling tough bacterial infections. 💊 Dive into our blog to explore the ongoing research on phage-based drug delivery systems and future opportunities and challenges. Read more here: nexabiome.com/blog/the-poten… #PhageTherapy #AMR #Antibiotics

Bacteriophages can be stored for decades or more under the right conditions. Cryopreservation is among the most effective methods, involving temperatures below -80°C. ❄️ Ancient phages have even been found preserved in glacier ice! #Bacteriophage #Phage #Science

Our polymicrobial library and world-class #phage isolation allow us to screen multiple samples simultaneously. Our experience covers: 🦠 Antimicrobial-resistant strains of bacteria 🔎 Difficult to culture targets 🌿 Slow-growing environmental bacteria 🌡️ Strict anaerobes #AMR

Could #PhageTherapy become a treatment for STDs? 💊 This article explores how #phages are being used to target Neisseria gonorrhoeae - the increasingly drug-resistant gram-negative bacteria that causes #gonorrhoea. Have a read: bacteriophage.news/phage-therapy-…

Did you know #phages can help break down biofilms? 🦠 Biofilms are complex microbial communities encased in extracellular polymeric substances. Phages produce enzymes that disrupt this barrier, making it easier for antibiotics & the immune system to target the bacteria inside.

Our end-to-end #phage solutions are backed by rigorous quality checks at every stage. ✅ We produce phages in lab-scale batches to efficiently meet supply demands. Leveraging in-house GMP expertise, we can ensure the highest standards of quality and safety throughout production.