Time to Rethink the Traditional White Coat?

January 8, 2014 By Leave a Comment

lab coat protectionIs the physician’s white hospital coat a protection for or a danger to patients?  Years ago, the United Kingdom, concerned that the fabric on the lower sleeve is rife with infectious matter, instituted a bare-below-the-elbows policy to reduce the risk of nosocomial infections (NI).  (Murphy 2007, Kerr 2008, Gray 2008) (To clarify, “bare below the elbows” only applies to the arms, not to a practitioner’s nether regions.)

The United States is taking longer to arrive at such a policy, despite the fact that in June 2009 the American Medical Association (AMA) House of Delegates passed a resolution to encourage the “adoption of hospital guidelines for dress codes that minimize transmission of nosocomial infections (NI).” (AMA 2009) One reason for hesitation:  The UK has not performed definitive studies to demonstrate that its “bare below the elbows” policy actually reduces nosocomial infections.

What is undeniable is that NI are a serious danger in the US.  In 2002 alone, there were 1.7 million nosocomial infections, which resulted in 99,000 deaths in the United States, at an estimated annual cost of $6.7 billion.  (Monina 2007, Graves 2004).  And studies have shown that physicians’ coat sleeves and pockets are often colonized with the types of bacteria that cause NI. (Varghese 1999, Loh 2000, Wong 1991, Amy 2008)

These facts make it imperative to resolve any danger associated with medical uniforms.  “Below the elbows” policies may be a starting point, but the AMA and hospitals should also be investigating other avenues of potential protection, such as novel fabrics that have antimicrobial properties “built into” them.

 

 

Endnotes

AMA, 2009.  “Resolution 720: Hospital Dress Codes for the Reduction of Nosocomial Transmission of Disease.

Amy, MT, AT Kerri et al.  2008.  “Bacterial Contamination of Health Care Workers’ White Coats.” Am J Infect Control 37(2) 101-105.

Graves, N. 2004. “Economics and Preventing Hospital-Acquired Infection.  Emerg. Infect. Dis.

Gray, S. 2007 Sep 17.  “Superbug Fears Kill Off Doctors’ White Coats.”  The Times. [Accessed 19 June 2008]. http://www.timesonline.co.uk/tol/news/uk/health/article2470379.ece

Kerr, C.  2008.  “Ditch that White Coat.” CMAJ 178(9):1127.

Loh, W, VV Ng, and J Holton. 2000. “Bacterial Flora on the White Coats of Medical Students.” J Hosp Infect 45(1):65-68.

Monina, R, and D Klevens, R Jonathan et al. 2007. “Estimates of Healthcare-Associated Infections.”  Public Health Reports 122:160-166.

Murphy, C. 2007 Sep 17.  “End for Traditional Doctor’s Coat.”  BBC News. [Accessed 19 June 2008].

Varghese, D and H Patel.  1999.  “Hand Washing. Stethoscopes and White Coats are Sources of Nosocomial Infection. BMJ 319(7208):519.

Wong, D, K Nye, and P. Hollis P. 1991. “Microbial Flora on Doctors’ White Coats. BMJ 303(6817):1602-1604.

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CRE, Another Antibiotic-Resistant Germ

December 16, 2013 By Leave a Comment

CRECRE, which stands for carbapenem-resistant Enterobacteriaceae, is a family of germs that, like MRSA, is resistant to antibiotics.  Escherichia coli (E. coli) is one example of Enterobacteriaceae, a normal part of the bacteria in the human gut, which can become carbapenem-resistant. Types of CRE are sometimes known as KPC (Klebsiella pneumoniae carbapenemase) and NDM (New Delhi Metallo-beta-lactamase).  KPC and NDM are enzymes that break down carbapenems and make them ineffective. (CDC n.d.)

Healthy people usually do not get CRE infections, which most often afflict people being treated for other conditions.  Patients whose care requires devices like ventilators, urinary catheters, or IV catheters, and patients who are taking long courses of certain antibiotics are most at risk for CRE infections. (CDC n.d.)

Between 2001 and 2011, the percentage of carbapenem-resistant Enterobacteriaceae infections reported by US hospitals rose nearly fourfold, from 1.2% to 4.2%.  Information from the first 6 months of 2102 suggests that the percentage of such infections has gotten slightly higher, at 4.6%.  CDC director Tom Frieden said that it was time to sound an alarm in order to address this threat. (Brunk 2013)  He characterized CRE as a “nightmare” for multiple reasons:  “First, they’re resistant to all or nearly all antibiotics….Second, they have high mortality rates. They kill up to half of people who get serious infections with them. And third, they can spread their resistance to other bacteria such as Escherichia coli and make E. coli resistant to those antibiotics also.” (Brunk 2013)

Endnotes

Brunk, Doug.  2013 Mar. 6.  “’Nightmare’ CRE Infections on the Rise.”  Family Practice News. Retrieved from http://www.familypracticenews.com/news/infectious-diseases/single-article/nightmare-cre-infections-on-the-rise-cdc-says/a0206becb5b1bb3c1e20b4b81a11f78e.html

Centers for Disease Control and Prevention.  (n.d.) Healthcare-Associated Infections.

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Healthcare-Associated Infections

December 3, 2013 By Leave a Comment

Healthcare-associated infections, or HAIs, are infections acquired while receiving treatment for another condition in a healthcare setting.  (HHS.gov [n.d.]).  They include almost every malady that is not part of the admitting diagnosis.  (Wilcox J. 2012)  Although they are sometimes referred to as hospital-acquired infections, they can be contracted anywhere healthcare is delivered, including inpatient settings, outpatient settings, and nursing homes or rehab centers.  HAIs may be caused by any infectious agent, including bacteria, fungi, and viruses.  (HHS.gov [n.d.]).

Risk factors for HAI include

  • Use of bloodstream, endotracheal, and urinary catheters
  • Surgical procedures
  • Injections
  • Contamination of the healthcare environment
  • Transmission of communicable diseases between patients and healthcare workers
  • Overuse or improper use of antibiotics  (HHS.gov [n.d.]).

HAIs are rife.  At any given time, about 1 in 20 inpatients has an infection related to hospital care.  These infections cost the US healthcare system billions of dollars each year. (HHS.gov [n.d.]).  According to one 2010 study, the average length of stay for someone with an HAI is more than 19 days longer than that of someone without an HAI.  On average, each HAI-afflicted patient in a hospital costs $43,000 more than a patient free of HAIs.  In 2007, HAI cost 99,000 lives, the majority of them from pneumonia and bloodstream infections. (–.  The Silver Book (n.d.))

The US Department of Health and Human Services (HHS) has identified the reduction of HAIs as an Agency Priority Goal.  In time, HHS believes that HAIs can be eliminated entirely. (HHS.gov [n.d.]).

 

Endnotes
 HHS.gov (n.d.).  Health Care Associated Infections.  Retrieved from http://www.hhs.gov/ash/initiatives/hai/

(n.d.). The Silver Book:  Healthcare-Associated Infections.  Retrieved from http://www.silverbook.org/uploads/images/SilverBookHAI_FactSheet.pdf

Wilcox, J. (ed.), 2012. Hospital-Acquired Infections.

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Healthcare Associated Infections in Perspective

November 4, 2012 By Leave a Comment

To get a sense of the overall scope of the HAI problem, it may help to look at some of the measurable goals and the progress towards those goals. As we consider the size and impact of healthcare associated infections (HAIs) in the only ways those factors can actually be measured, we want to acknowledge that the medical, financial, and emotional cost of HAIs to individuals and families is incalculable.

A quick look at the metrics explain why the effort to prevent HAIs is so compelling on economic as well as moral grounds:

  • 5% (1 in 20) of all hospitalizations in the U.S. result in HAIs 1
  • 1.7 million HAIs result in 100,000 deaths in the U.S. every year
  • Annual U.S. direct medical costs due to HAIs is in excess of $28 billion1
  • 8.7% (~1 in 12) of all hospitalizations worldwide result in HAIs2
  • 30% of intensive care (ICU) patients in high-income countries are affected by HAIs. Low- to middle- income countries could easily see double that rate.2

In other words, in the U.S. HAIs cause more deaths than AIDS3, breast cancer4, and auto accidents5 combined. The extra direct medical costs in the U.S. could pay for about half of the government’s spending for Medicare Part D6 (prescriptions).

It’s worth noting that dollar costs are generally stated as direct medical costs including treatment and resource costs of extended hospital stays due to HAIs. Some economists7 would argue, though, that including the opportunity costs of those resources—the value of their alternative uses—yields a more accurate assessment. The opportunity cost argument would increase the economic burden from HAIs, and would thus justify higher expenditures to prevent infections.

Progress

HAIs are indeed a huge and complex problem, and many groups and government agencies are working on solutions. The U.S. Department of Health and Human Services is shepherding an effort to prevent and ultimately eliminate HAIs. Created in 2009, The National Action Plan to Prevent Healthcare-Associated Infections: Roadmap to Elimination contains five-year targets for reduction of infections or hospitalizations in several areas, and the update reports progress as of October 2011.

A few areas are on track to meet 2013 targets:

  • Central-line associated bloodstream infections should be reduced by 50%
  • Catheter-associated urinary tract infections should be reduced by 25%
  • Surgical site infections should be reduced by 25%
  • MRSA bacteremia data is not yet available, but rates have shown progress towards the 25% reduction goal

But one key area has shown less progress toward the reduction goal:

  • Clostridium difficile infections have leveled off, but not decreased, so a 30% decrease by 2013 seems unlikely.

A quick look at that plan’s executive summary confirms the HAI problem’s complexity and the resulting need for a multifaceted approach:

  • Hand hygiene
  • Equipment sterilization
  • Isolation
  • Environmental service protocols
  • Staff and consumer education
  • Surface sanitation
  • Antimicrobial surfaces

All of the above are important elements of the solution. Hand hygiene is essential, but alone it’s not sufficient to the task of preventing HAIs.

Steady progress towards reduction goals in most of the measures is encouraging. However, such progress is rarely linear or easy to predict: the most easily achieved results come early in the process, and the rest is often slower to realize. Even if and when HAIs are eliminated, constant vigilance and renewed effort will be required to avoid recurrence or new infections from new sources.

 

1 U.S. Centers for Disease Control and Prevention

2 World Health Organization

3 Centers for Disease Control and Prevention, (CDC) (2011 Jun 3). “HIV surveillance–United States, 1981-2008.”. MMWR. Morbidity and mortality weekly report 60 (21): 689-93. PMID 21637182

4 American Cancer Society. Cancer Facts & Figures 2012. Atlanta: American Cancer Society; 2012.

5 ^ “FARS 2010″. National Highway Transportation Safety Administration.

6 Health Care Spending and the Medicare Program – A Data Book – June 2012 Medicare Payment Advisory Commission

7 Graves N. Economics of preventing hospital infection. Emerg Infect Dis [serial online] 2004 Apr [date cited]. Available from: http://wwwnc.cdc.gov/eid/article /10/4/02-0754.htm

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PurThread: Textile World’s Quality Fabric of the Month

August 28, 2012 By

PurThread: Textile World’s Quality Fabric of the MonthWe were honored by Textile World’s coverage this month. The article did a good job of summarizing the reason we are developing this fiber technology. Healthcare-acquired infections (HAIs) are a significant problem that kill almost 100,000 people each year in the US alone. Sadly as was seen in the recent stories about the 2011 superbug outbreak at NIH, hand hygiene and other current practices are insufficient to the challenge. We are developing continuously active fabrics based on proprietary integration technology and a complex element compound. Once these textiles complete a thorough government review, PurThread will introduce privacy curtains, scrubs, bed linens and other fabric products used in healthcare facilities with the goal of reducing bioburden on these soft surfaces, helping to break the chain of pathogen transmission from those surfaces to healthcare worker hands that all too frequently form the bus network delivering pathogens to patients.

The article refers to both the study showing that 92 percent of traditional hospital privacy curtains became contaminated within one week of being laundered, and an upcoming peer-reviewed study of the efficacy of PurThread privacy curtains in reducing bioburden on the curtains themselves. In developing these products we are focusing not only on delivering fabric surfaces that will make a measurable difference in tough clinical settings, but also on making fabrics that have a soft, comfortable feel and that require no special handling or laundry protocols.

We extend our thanks to Textile World for the recognition.

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MVP of Infection Control Team: The Patient.

May 1, 2012 By

Do not touch me unless you have HH since you touched the privacy curtainHospitals and other healthcare providers work hard to prevent healthcare-acquired infections, but patients can and should help. It’s the patient’s right and responsibility to ask questions, remind providers about hand hygiene, and take any other protective action they can. Those responsibilities naturally pass to the trusted advocate when the patient is not well enough to fulfill them. It’s clearly in everyone’s best interest for providers to make patients aware of their role as active participants in their own care and safety.

The patient pictured here happens to know about privacy curtains as a source of contamination, and to request hand hygiene (HH). Most patients or their advocates will likely need to ask their providers open-ended questions about best practices for all-cause harm reduction.

Here are some useful resources for patient education:

Preventing Infections in the Hospital – from the National Patient Safety Foundation

15 Steps You Can Take To Reduce Your Risk of a Hospital Infection – from the Committee to Reduce Infection Deaths

Hospital Acquired Conditions and Patient Safety in Hospitals – from HeathCare.gov is a mother lode of resources …

… including the WAVE (Wash, Ask, Vaccinate, Ensure safety) campaign materials.

You may have noticed that the tagline on the healthcare.gov site is “Take health care into your own hands.”  We wholeheartedly agree. Just remember to wash those hands first.

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Infection Prevention and Control Programs: Cohesion and Consistency

April 16, 2012 By Leave a Comment

Infection Prevention and Control Programs: Cohesion and ConsistencyThe fight against hospital-acquired infections is multifaceted. We at PurThread are proud to be addressing an essential part of that fight: soft surface contamination. Hand washing protocols, maintenance procedures, error-avoidance checklists, and training each make substantive contributions to infection prevention and control. Proper preparation for dealing with infections in most healthcare facilities requires a well-designed and maintained infection control program. Without such a program, addressing infection control would seem like a game of whack-a-mole.

In this day and age, infection control programs are commonplace. However, preparedness for dealing with infectious diseases still varies widely. In “How Prepared are Hospitalists to Handle Infectious Disease Cases?” (The Hospitalist, April 2012) infectious disease physician Dr. Leland Allen describes how a comprehensive infection control program can overcome variations in hospital personnel training and help all staff address the specific types of infections that might be found at their institutions. The payoff is manifested by reduced infection rates and better support for staff physicians.

Resources for hospital and healthcare facility infection control program development and monitoring abound. Here are just a few:

Developing an Infection Control Program

CDC guidelines for infection control

8 Steps to Effective Hospital Infection Control Programs

What are the resources you found most helpful in designing your infection prevention and control program? And which components of your infection control program do you consider most critical?

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