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Microparticles Deliver Oxygen

Researchers have developed fast-dissolving particles that may one day prevent organ damage or death by instantly infusing oxygen into the blood.

By | June 29, 2012

image: Microparticles Deliver Oxygen Red blood cellsWikimedia Commons, MDougM

Red blood cellsWIKIMEDIA COMMONS, MDOUGM

Scientists have crafted an injectable foam containing oxygen-carrying microparticles that could potentially be used to resuscitate patients undergoing severe oxygen deprivation. The team of researchers, most of whom work at Children's Hospital Boston, demonstrated that the microparticle solution could rapidly oxygenate the blood of rabbits struggling to breath in low oxygen conditions. They report their findings in the latest issue of Science Translational Medicine.

"This is a potential breakthrough," Peter Laussen, cardiac intensive care doctor at Children's Hospital Boston who was not involved in the work, told ScienceNOW. "You can apply this across healthcare, from the battlefield to the emergency room, intensive care unit, or operating room."

A body deprived of oxygen is a body in trouble. When major organs like the brain and heart don't receive an adequate supply of oxygen they falter and fail, sometimes in minutes. Traditionally, physicians used therapies such as CPR and tracheal intubation, where a breathing tube ventilates the lungs after being inserted into a patient's windpipe, to deliver fresh oxygen to the bloodstream of a person in the midst of a medical emergency.

The microparticles, which consist of spherical shells of lipids surrounding a small bubble of oxygen gas, deliver oxygen almost immediately to red blood cells in a way that is safer and more rapid than currently used methods. The research team, led by Children’s Hospital Boston cardiologist John Kheir, found that the solution could completely saturate red blood cells in oxygen-deprived rabbits within seconds of injection, and they kept rabbits with totally blocked airways alive for 15 minutes using the oxygen-infused microparticles. "Essentially as soon as we started injecting it, clinically we started to see an effect," Kheir told ScienceNOW.

Researchers are now testing the microparticle solution on large animals, and if those and later human clinical trials are successful, the therapy could make its way into the clinic or other emergency situations. "This is still in its infancy," Laussen added, "but this idea of a new and novel way to effectively deliver oxygen is, I think, very exciting."

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Comments

Avatar of: allanfaint

allanfaint

Posts: 1

May 3, 2013

Probable sport uses
Avatar of: Mike Schwab

Mike Schwab

Posts: 1

May 3, 2013

Administer to Pnemonia cases with low O2 saturation levels via IV. 

Lipids: Are they digestible?  Dosage rate?  Caloric intake rate?  Isotonic saline?  Glucose to balance caloric intake?


How about heart operations?  Could this replace the lung portion of the heart lung machine?


How about CO2 buildup?  Or will it be released through the lungs faster as it builds up?  Even if it does build up, I would imagine you would have several hours without lungs (Heart operation) or days (pnemonia) before the levels become fatal.


Cystic Fibrosis, COPD, etc cases could also benefit.


 

Avatar of: Kanch

Kanch

Posts: 1

May 4, 2013

what s the fate of that lipid micro particles?

 

Avatar of: ColicinK

ColicinK

Posts: 1

May 6, 2013

@allanfaint: At least not in its current form, since the lipidic oxygen-containing microparticles (LOMs) have to be intravenously injected and provide oxygen for about 15 minutes (depending on the dosage of course). Not very useful as sports dope, is it? Unless if it were administered to an athlete just prior to competition start, to provide an extra boost of oxygen. However, in a healthy person it would lead to hyperoxia and oxygen toxicity! There is another use however, namely topical application to improve wound healing.

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