Study released at the Pediatric Academic Societies' Annual
Meeting this month in Toronto shows that switching to Masimo SET pulse
oximetry technology can reduce the risk associated with ROP by 40%
Irvine, California May 30, 2007 - Masimo, the
inventor of Pulse CO-Oximetry and Read-Through Motion and Low Perfusion
pulse oximetry, reported that a new independent study presented at the
Pediatric Academic Societies' (PAS) Annual Meeting in Toronto, Canada
earlier this month showed that switching to Masimo SET pulse oximetry
technology can reduce the risk of extremely low birth weight (ELBW)
infants developing retinopathy of prematurity (ROP) by 40%.1
One of the most common causes of visual impairment and blindness in
premature infants, ROP has been shown to be exacerbated by hyperoxia
caused by the excessively high levels of supplemental oxygen often used
to treat these patients, due in large part to unreliable oxygen level
measurements from pulse oximeters not able to maintain accuracy during
conditions of motion and low perfusion.
In the study entitled Clinical Practice and SpO2 Technology in the Prevention of ROP in ELBW Infants,
a team of neonatologists from hospitals in Georgia, Texas and New
Jersey headed by Armando Castillo, Richard Deulofeut, and Augusto Sola
examined whether a change in pulse oximetry (SpO2)
technology could impact treatment effect and relative risk reduction of
ROP in ELBW infants. "The impact of (differences in pulse oximetry
technologies) in reducing ROP is not easy to discriminate" the
researchers stated in the study. "Infants under our care were exposed
to a unique situation, where a universal change in clinical practice
was implemented by the same health care team members, but SpO2 technology after the clinical change was not uniform."
As a result, the research team was able to analyze ROP rates before
and after identical clinical practice changes at two different Health
Care Centers and isolate the difference made by the pulse oximetry
technology. The clinical changes included increased education and
commitment of bedside care givers along with guidelines to decrease
hyperoxemic periods and wide changes in oxygenation. Nellcor N395 pulse
oximeters, with claims of accuracy during motion and low perfusion,
were used in both Centers prior to the clinical practice changes, while
after these changes Center #1 switched to Masimo SET pulse oximetry and
Center #2 kept the Nellcor technology.
In Center #1, pre-change rates from 2000-2002 for ROP (III and IV)
and laser treatments were 11.1% and 4% respectively, decreasing to 6%
and 2.5% in 2003-2004 after the change in clinical practice and switch
to Masimo SET-representing a 40% relative risk reduction in severe ROP.
For the same time periods in Center #2, ROP (III and IV) and laser
treatment rates remained unchanged at 13% and 5% respectively after
changing clinical practice and maintaining use of Nellcor N395
technology, leading researchers to state that the results were
"significantly more favorable" for the center that switched to Masimo
technology.
"In a large group of examined inborn infants <1,250 grams treated
by the same neonatologists, MDs and NNPs using the same clinical
guideline to decrease hyperoxemia and wide changes in oxygenation, the
relative risk rate of severe ROP and laser therapy are associated with
the SpO2 technology utilized," the researchers concluded. "This further supports the significance of adequate SpO2 monitors in managing critically ill infants."
Joe E. Kiani, Chairman and CEO of Masimo stated; "In 2002, a group
of researchers at Cedars Sinai led by Dr. Sola published a
ground-breaking study, which showed that a new oxygen titration
protocol, including the monitoring of the neonates' arterial blood
oxygen saturation with Masimo SET pulse oximetry, could dramatically
reduce ROP. But some observers questioned how critical Masimo SET pulse
oximetry was to the success of the protocol. This multi-center study
shows that the accuracy and reliability of Masimo SET pulse oximetry,
in the hands of caring clinicians with sound protocol, is indeed
important to achieving dramatic reductions in ROP."
About Masimo
Masimo develops innovative
monitoring technologies that significantly improve patient care-helping
solve "unsolvable" problems. In 1995, the company debuted Read-Through
Motion and Low Perfusion pulse oximetry, known as SET and with it
virtually eliminated false alarms and increased pulse oximetry's
ability to detect life-threatening events. More than 100 independent
clinical studies have confirmed that Masimo SET technology allows
clinicians to accurately monitor blood oxygen saturation in critical
care situations-establishing the technology as the "gold standard"
pulse oximetry and substantially contributing to improved patient
outcomes. In 2005 Masimo introduced Masimo Rainbow SET Pulse
CO-Oximetry, which, for the first time, noninvasively monitors the
level of carbon monoxide and methemoglobin in the blood, allowing early
detection and treatment of potentially life-threatening conditions.
Masimo, founded in 1989, has the mission of "Improving Patient Outcomes
and Reducing Cost of Care by Taking Noninvasive Monitoring to New Sites
and Applications." Additional information about Masimo and its products
may be found at www.masimo.com.
1Clinical
Practice and SpO2 Technology in the Prevention of ROP in ELBW Infants.
Armando R. Castillo, Richard Deulofeut, Augusto Sola. Publication
8440.7; 2007 Pediatric Academic Societies'
Contact:
Tom McCall
Masimo Corporation
949-297-7075
Masimo, SET, Signal Extraction Technology,
Radical, Radical-7, Rad57, APOD, and Improving Outcomes and Reducing
Cost of Care by Taking Noninvasive Monitoring to New Sites and
Applications are registered trademarks of Masimo Corp. ARM, Acoustic
Respiratory Monitoring, BiFi, Rainbow, SpCO, SpMet, SpHb and Pulse
CO-Oximeter are trademarks of Masimo Corp.