Axena Technologies works to combat Nosocomial infection outbreaks

Business

  • Author Loren Hall
  • Published January 22, 2011
  • Word count 555

When it comes to startups, we tend to photo a squad of engineers grinding apart on an app for any cellphone or the most up-to-date piece of cool hardware. But there are just as quite a few startups working on producing the world a greater site by focusing on elements of our well being that we don't think about quite generally.

Providence-dependent Axena Technologies can be a startup functioning to combat Nosocomial Infections. They're infections a individual develops as being a results of therapy inside a hospital or health care company unit. Two million persons are infected with a Nosocomial Infection each and every 12 months, resulting in above thirty-billion money in unnecessary health care charges. Axena Technologies decided to fight Nosocomial Infections - also known as Healthcare Associated Infections or HAI - that has a patent-pending antibacterial coating applied for health care tubing.

Antibacterial coatings get the job done to forestall bacteria proliferation and biofilms with a material’s surface. Biofilms are a dense matrix of embedded tissues which can be resistant to drugs and tricky to deal with reactively. Health-Related research has proven which the presence of biofilms directly correlates to the advancement of Nosocomial Infections.

The coating approach, created at Brown College with antibacterial and anti-fungal properties, creates a sheath of nano-particles covering the exposed surface place around the tubing, resulting in improved antibacterial efficacy. Axena Technologies' coating course of action only includes two chemical substances and a natually ocurring substance, although most tubing in hospitals and other health care company units are coated with silver. Axena’s coating may be shown to decrease bacterial advancement by thirty-six periods compared to uncoated substrates, and is 6 situations more effective than silver.When it involves startups, we often image a squad of engineers grinding apart on an app for your cellphone or even the newest piece of cool hardware. But you will discover just as numerous startups performing on creating the world a greater location by focusing on factors of our health that we don't consider very typically.

Providence-dependent Axena Technologies is actually a startup working to combat Nosocomial Infections. They are infections a affected person develops like a results of treatment inside a hospital or healthcare program unit. Two million persons are infected with a Nosocomial Infection each and every yr, resulting in over thirty-billion money in unnecessary healthcare expenses. Axena Technologies decided to battle Nosocomial Infections - also often known as Health care Linked Infections or HAI - using a patent-pending antibacterial coating employed for health-related tubing.

Antibacterial coatings get the job done to prevent bacteria proliferation and biofilms on the material’s surface. Biofilms really are a dense matrix of embedded tissue which might be resistant to drugs and challenging to treat reactively. Healthcare analysis has proven that the presence of biofilms straight correlates on the improvement of Nosocomial Infections.

The coating procedure, produced at Brown University with antibacterial and anti-fungal properties, creates a sheath of nano-particles covering the uncovered surface location to the tubing, resulting in improved antibacterial efficacy. Axena Technologies' coating process only involves two chemicals plus a natually ocurring substance, although most tubing in hospitals and other healthcare company models are coated with silver. Axena’s coating has been shown to lower bacterial progress by thirty-6 times compared to uncoated substrates, and is six instances additional helpful than silver.

You can read the whole story in context at:

StartupGazette

Article source: https://articlebiz.com
This article has been viewed 698 times.

Rate article

Article comments

There are no posted comments.

Related articles