Hasta La Ideas

div style=”align: right;”img src=”http://s3files.core77.com/blog/images/2010/05/CDA-figure-8.jpg” width=”468″ height=”351″ alt=”CDA-figure-8.jpg”//div
img alt=”CDA-figure-6.jpg” src=”http://s3files.core77.com/blog/images/CDA-figure-6.jpg” width=”468″ height=”351″ class=”mt-image-none” style=”” /

pemTop: Hospital room with sani-station and touch-point hardware: grab bar, faucet, and light switch. Bottom: Sani-station in hospital lobby. /em/p

pemCopper Touch/em is a system of antimicrobial touch-point hardware and sani-stations (alcohol gel dispensers) designed to be deployed in hospitals to reduce infection. The system kills germs in areas people are most likely to touch while addressing some of the behavioral challenges of infection control: hand-washing and cleaning surfaces. The products also showcase the newly-proven antimicrobial properties of copper alloys; the sani-stations act as communication points to brand the material at the place where germs are top of mind. /p

pThe project began when the Copper Alloy Association (CDA) approached us at a href=”http://www.pensanyc.com”Pensa/a with the problem of encouraging hospitals, CDA’s target market, to adopt copper alloys. Studies proving that these materials kill microbes faster and more effectively than any other antimicrobial material on the market and an EPA registration permitting health claims about these properties were not enough, so the CDA asked that we identify and design compelling hospital products that would inspire designers and manufacturers to use copper alloys wherever there was a need to fight infection./p

div class=”article_quote”Consistency, patient compliance, and error avoidance are all crucial factors in effective delivery of a therapy. This is the space where we excel: applying an understanding of human behavior to create solutions that work within our imperfect world./div

pTo develop a solution, we first had to understand the challenges of infection control in hospitals and the experiences of a range of hospital stakeholders, including infection control officers, cleaning staff, administrators, doctors, nurses, patients, architects, and facility managers./p

pimg src=”http://s3files.core77.com/blog/images/2010/05/CDA-figure-1.jpg” width=”468″ height=”323″ alt=”CDA-figure-1.jpg”//p

pemAntimicrobial effectiveness: copper vs. the competition. Copper alloys have also been proven to kill Staphylococcus aureus, Enterobacter aerogenes, Pseudomonas aeruginosa, and E. coli, in under two hours. /em/p

pbr /
bDesign and medical science/bbr /
The number of Americans who die every day from hospital-aquired infections (HAIs) is equivalent to one jumbo jet plane crashing every day, according to Donald Wright, MD, MPH, of the US Dept. of Health and Human Services. Surely, there would be an uproar if our society allowed for such continuing aviation disasters, but HAIs just don’t have the same prominence in public awareness. Hospitals are under a lot of pressure to rectify the situationmdash;pressure that includes the cessation of Medicare payments in cases of HAIs and several state laws mandating transparency or reporting of HAIsmdash;but fixing the problem is a struggle. The problem of the quantity of infections is compounded by antibiotic resistant “super bugs,” created by the overuse of antibiotics./p

pimg src=”http://s3files.core77.com/blog/images/2010/05/CDA-figure-2.jpg” width=”468″ height=”314″ alt=”CDA-figure-2.jpg”//p

pemIn a real hospital room, it’s quickly obvious that microbes on surfaces aren’t the only issue. How many people touched this table? How does it get cleaned?/em/p

p”The tasks of medical science fall into three buckets. One is understanding disease biology. One is finding effective therapies. And one is insuring those therapies are delivered effectively. That third bucket has been almost totally ignored.” mdash;Peter Pronovost, pioneer of medical checklists/p

pThrough the work of Peter Pronovost, we came to understand that infection control is largely an issue of effective implementation. The medical establishment already knows how to prevent infection in an ideal world (hand-washing, for example), but they struggle to implement that knowledge effectively in the real world. Even beyond infection control, the issue of effective delivery is one of the major challenges in healthcare today. Consistency, patient compliance, and error avoidance are all crucial factors in effective delivery of a therapy. Fortunately for designers, this is the space where we excel: applying an understanding of human behavior to create solutions that work within our imperfect world. This is what we needed to achieve with copper: the CDA has already shown it kills microbes (effective therapy), but the key issue for us was effective implementation. /pa href=”http://www.core77.com/blog/featured_items/infectious_ideas_using_antimicrobial_copper_alloys_in_hospitals_by_alice_ro__16508.asp”(more…)/a
pa href=”http://feedads.g.doubleclick.net/~a/suDsatiitPtMUAuRFVzNAkSZWH8/0/da”img src=”http://feedads.g.doubleclick.net/~a/suDsatiitPtMUAuRFVzNAkSZWH8/0/di” border=”0″ ismap=”true”/img/abr/
a href=”http://feedads.g.doubleclick.net/~a/suDsatiitPtMUAuRFVzNAkSZWH8/1/da”img src=”http://feedads.g.doubleclick.net/~a/suDsatiitPtMUAuRFVzNAkSZWH8/1/di” border=”0″ ismap=”true”/img/a/p