TY  - JOUR
PY  - 2012//
TI  - Oxygen gas-filled microparticles provide intravenous oxygen delivery
JO  - Science translational medicine
A1  - Kheir, John N.
A1  - Scharp, Laurie A.
A1  - Borden, Mark A.
A1  - Swanson, Edward J.
A1  - Loxley, Andrew
A1  - Reese, James H.
A1  - Black, Katherine J.
A1  - Velazquez, Luis A.
A1  - Thomson, Lindsay M.
A1  - Walsh, Brian K.
A1  - Mullen, Kathryn E.
A1  - Graham, Dionne A.
A1  - Lawlor, Michael W.
A1  - Brugnara, Carlo
A1  - Bell, David C.
A1  - McGowan, Francis X.
SP  - 140ra88
EP  - 140ra88
VL  - 4
IS  - 140
N2  - We have developed an injectable foam suspension containing self-assembling, lipid-based microparticles encapsulating a core of pure oxygen gas for intravenous injection. Prototype suspensions were manufactured to contain between 50 and 90 ml of oxygen gas per deciliter of suspension. Particle size was polydisperse, with a mean particle diameter between 2 and 4 μm. When mixed with human blood ex vivo, oxygen transfer from 70 volume % microparticles was complete within 4 s. When the microparticles were infused by intravenous injection into hypoxemic rabbits, arterial saturations increased within seconds to near-normal levels; this was followed by a decrease in oxygen tensions after stopping the infusions. The particles were also infused into rabbits undergoing 15 min of complete tracheal occlusion. Oxygen microparticles significantly decreased the degree of hypoxemia in these rabbits, and the incidence of cardiac arrest and organ injury was reduced compared to controls. The ability to administer oxygen and other gases directly to the bloodstream may represent a technique for short-term rescue of profoundly hypoxemic patients, to selectively augment oxygen delivery to at-risk organs, or for novel diagnostic techniques. Furthermore, the ability to titrate gas infusions rapidly may minimize oxygen-related toxicity.<p />  <p>Language: en</p>
LA  - en
SN  - 1946-6234
UR  - http://dx.doi.org/10.1126/scitranslmed.3003679
ID  - ref1
ER  -