Research Critiques And PICOT Statement
Prepare this assignment as a 1,500-1,750 word paper using the instructor feedback from the Topic 1, 2, and 3 assignments and the guidelines below.
Revise the PICOT statement you wrote in the Topic 1 assignment.
In the Topic 2 and Topic 3 assignments you completed a qualitative and quantitative research critique. Use the feedback you received from your instructor on these assignments to finalize the critical analysis of the study by making appropriate revisions. Research Critiques And PICOT Statement
The completed analysis should connect to your identified practice problem of interest that is the basis for your PICOT statement.
Refer to “Research Critique Guidelines.” Questions under each heading should be addressed as a narrative in the structure of a formal paper.
Discuss the link between the PICOT statement, the research articles, and the nursing practice problem you identified. Include relevant details and supporting explanation and use that information to propose evidence-based practice changes.
Prepare this assignment according to the APA guidelines found in the APA Style Guide, located in the Student Success Center. An abstract is not required.
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· Ensure that you are only using third person language for APA format.
· The only change that needs to take place is for you to ensure you are in the proper order. It will sound weird, but it is truly the best format. PICOT. In researching articles for this paper, I turned to both Qualitative and Quantitative peer reviewed articles. I also performed a lot of independent research, so I could knowledgably select the best articles for this research. According to the United States Centers for Disease Control and the Society for Healthcare Epidemiology of America and the Disease Society of America (SHEA-IDSA) report, the third most common Healthcare Associated Infection are Central Line Associated Blood Stream Infections or CLABSI.
Hospital-acquired infections (HAIs) affect 1.7 million patients annually and result in 99,000 deaths each year (US Department of Health and Human Services, 2010). CLABSIs are a subset of bloodstream infections, and while Klevens et al (2007) estimated that the deaths caused by or associated with a HAI were 98,987 per year, one-third of these were secondary to CLABSIs resulting in a 12.3% mortality rate (U.S. Department of Health and Human Services, 2009). CLABSIs result in prolonged stays in the intensive care unit (ICU) with medical costs averaging an additional $11,971 per patient (Warren et al., 2006). The overall effect of CLABSIs results in annual expenditures of 2.3 million dollars in U.S. hospitals (Blot et al., 2005). However, with preventive measures, these costs could be greatly reduced and perhaps eliminated. Research Critiques And PICOT Statement
CLABSI – Centers for Disease Control and Prevention (CDC) definition: CLABSI is a surveillance definition used by the CDC and defined as recovery of a pathogen from a blood culture (a single blood culture for organism not commonly present on the skin, and two or more blood cultures for organism commonly present on the skin) in a patient who had central line at the time of infection or within 48 hours before development of infection. The infection cannot be related to any other infection the patient might have and must not have been present or incubating when the patient was admitted to the facility.
The research on CLABSI indicates the most common pathogens are Staphylococcus Aureus, Enterococci, and Candida. According to further CDC guidelines, LCBIs are divided into LCBI 1, LCBI 2, and LCBI 3 (in patients < 1 year of age), An LCBI 1 is defined as a patient with a recognized pathogen cultured from one or more blood cultures, and these cultured bacteria is not related to an infection at any other site. This confirms that the bloodstream infection is not related to another source of infection and is therefore determined to be caused by the central line. LCBI 2 requires that the patient have either fever (>38°C), chills, or hypotension, alongside positive blood lab results (cultures) that are not related to infection at another site. Finally, bacteria must be cultured from two or more blood tests drawn within a 24-hr period. LCBI 2 allows for diagnosis of a CLABSI when blood cultures reveal a microorganism that is not strictly pathogenic in nature (CDC, 2016)Research Critiques And PICOT Statement.
PICO Parts and PICO Question
· P: Population/patient – Patients developing central line associated bloodstream infections (CLABSI).
· I: Intervention/indicator – Handwashing, Antimicrobial catheters and chlorhexidine baths to decrease CLABS.
· C: Comparison/control – Regular bath with soap and water
· O: Outcome – Decreased rates of CLABSI infections in patients with Central vein catheters.
Research Question: In hospitalized patients with central access devices (P), what is the effect of daily chlorohexidine baths (I) on decreasing incidence of CLABSI infections (O) compared with daily baths with soap and water (C) within a hospital stay (T)?
Six (6) Peer Reviewed Research Articles
Quantitative with Abstract-
1) Curlej, MH. 2016. One Rural Hospital’s Experience Implementing the Society for Healthcare Epidemiology of America Guidelines to Decrease Central Line Infections. Journal of Trauma Nursing. 23 (5):290-297.
In an effort to take advantage of the Highmark Quality Blue Initiative (N. D. Bastian, H. Kang, H. B. Nembhard, A. Bloschichak, P. M. Griffin, 2016) requiring information from hospitals detailing their central line-associated blood stream infections (CLABSIs) surveillance system, quality improvement program, and statistics regarding the CLABSI events, this institution investigated the latest evidence-based recommendations to reduce CLABSIs. Recognizing the baseline rate of 2.4 CLABSIs per 1,000 central line days and its effect on patient outcomes and medical costs, this hospital made a commitment to improve their CLABSI outcomes. As a result, the facility adopted the Society for Healthcare Epidemiologyof America (SHEA) guidelines. The purpose of this article is to review the CLABSI rates and examine the prevention strategies following implementation of the SHEA guidelines. A quantitative, descriptive retrospective program evaluation examined the hospital’s pre- and post-SHEA implementation methods of decreasing CLABSIs and the subsequent CLABSI rates over 3 time periods. Any patient with a CLABSI infection admitted to this hospital July 2007 to June 2010 (N = 78). CLABSI rates decreased from 1.9 to 1.3 over the study period. Compliance with specific SHEA guidelines was evaluated and measures were put into place to increase compliance where necessary. CLABSI rates at this facility remain below the baseline of 2.4 for calendar year 2013 (0.79), 2014 (0.07), and 2015 (0.33).
2) Bonne, S., Mazuski, J. E., Sona, C., Schallom, M., Boyle, W., Buchman, T. G., … Schuerer, D. J. E. (2015). Effectiveness of Minocycline and Rifampin vs Chlorhexidine and Silver Sulfadiazine-Impregnated Central Venous Catheters in Preventing Central Line-Associated Bloodstream Infection in a High-Volume Academic Intensive Care Unit: A Before and after Trial. Journal of the American College of Surgeons, 221(3), 739–747. https://doi-org.lopes.idm.oclc.org/10.1016/j.jamcollsurg.2015.05.013
Background Use of chlorhexidine and silver sulfadiazine-impregnated (CSS) central venous catheters (CVCs) has not been shown to decrease the catheter-related bloodstream infection rate in an ICU. The purpose of this study was to determine if use of minocycline and rifampin-impregnated (MR) CVCs would decrease central line-associated bloodstream infection (CLABSI) rates compared with those observed with use of CSS-impregnated CVCs. Study Design A total of 7,181 patients were admitted to a 24-bed university hospital surgical ICU: 2,551 between March 2004 and August 2005 (period 1) and 4,630 between April 2006 and July 2008 (period 2). All patients requiring CVC placement in period 1 had a CSS catheter inserted, and in period 2 all patients had MR CVCs placed. Results Twenty-two CLABSIs occurred during 7,732 catheter days (2.7 per 1,000 catheter days) in the 18-month period when CSS lines were used. After the introduction of MR CVCs, 21 catheter-related bloodstream infections occurred during 15,722 catheter days (1.4 per 1,000 catheter days). This represents a significant (p < 0.05) decrease in the CLABSI rate after introduction of MR CVCs. Mean length of time to infection developing after catheterization (8.6 days for CSS vs 6.1 days for MR) was also different (p = 0.04). The presence of MR did not alter the microbiologic profile of catheter-related infections, and it did not increase the incidence of resistant organisms. Conclusions the CLABSI rate decreased more with the use of MR CVCs compared with CSS CVCs in an ICU where the CLABSI rate was already low. The types of organisms causing infection were similar. With continued use of MR-impregnated CVCs in our ICU in the subsequent 5 years, we have seen sustained low rates of CLABSIs. [ABSTRACT FROM AUTHOR] Research Critiques And PICOT Statement
3) Benjamin Woodward, & Reba Umberger. (2016). Review of Best Practices for CLABSI Prevention and the Impact of Recent Legislation on CLABSI Reporting. SAGE Open, Vol 6, Iss 4 (2016), (4). https://doi-org.lopes.idm.oclc.org/10.1177/2158244016677747
Central line-associated bloodstream infections (CLABSI) are a very common source of healthcare-associated infection (HAI). Incidence of CLABSI has been significantly reduced through the efforts of nurses, healthcare providers, and infection preventionists. Extrinsic factors such as recently enacted legislation and mandatory reporting have not been closely examined in relation to changes in rates of HAI. The following review will examine evidence-based practices related to CLABSI and how they are reported, as well as how the Affordable Care Act, mandatory reporting, and pay-for-performance programs have affected these best practices related to CLABSI prevention. There is a disconnect in the methods and guidelines for reporting CLABSI between these programs, specifically among local monitoring agencies and the various federal oversight organizations. Future research will focus on addressing the gap in what defines a CLABSI and whether or not these programs to incentivize hospital to reduce CLABSI rates are effective.
Qualitative with Abstract–
4) McAlearney, A. S., & Hefner, J. L. (2014). Original article: Facilitating central line–associated bloodstream infection prevention: A qualitative study comparing perspectives of infection control professionals and frontline staff. AJIC: American Journal of Infection Control, 42(Supplement), S216–S222. https://doi-org.lopes.idm.oclc.org/10.1016/j.ajic.2014.04.006
Background Infection control professionals (ICPs) play a critical role in implementing and managing healthcare-associated infection reduction interventions, whereas frontline staff are responsible for delivering direct and ongoing patient care. The objective of our study was to determine if ICPs and frontline staff have different perspectives about the facilitators and challenges of central line-associated bloodstream infection (CLABSI) prevention program success.
Methods We conducted key informant interviews at 8 hospitals that participated in the Agency for Healthcare Research and Quality CLABSI prevention initiative called “On the CUSP: Stop BSI.” We analyzed interview data from 50 frontline nurses and 26 ICPs to identify common themes related to program facilitators and challenges.
Results We identified 4 facilitators of CLABSI program success: education, leadership, data, and consistency. We also identified 3 common challenges: lack of resources, competing priorities, and physician resistance. However, the perspective of ICPs and frontline nurses differed. Whereas ICPs tended to focus on general descriptions, frontline staff noted program specifics and often discussed concrete examples.
Conclusions Our results suggest that ICPs need to take into account the perspectives of staff nurses when implementing infection control and broader quality improvement initiatives. Further, the deliberate inclusion of frontline staff in the implementation of these programs may be critical to program success.
5) Donskey, C. J., & Deshpande, A. (2016). Effect of chlorhexidine bathing in preventing infections and reducing skin burden and environmental contamination: A review of the literature. American Journal of Infection Control, 44, e17–e21. https://doi-org.lopes.idm.oclc.org/10.1016/j.ajic.2016.02.024 Research Critiques And PICOT Statement
Chlorhexidine bathing is effective in reducing levels of pathogens on skin. In this review, we examine the evidence that chlorhexidine bathing can prevent colonization and infection with health care-associated pathogens and reduce dissemination to the environment and the hands of personnel. The importance of education and monitoring of compliance with bathing procedures is emphasized in order to optimize chlorhexidine bathing in clinical practice.
6) Scheck McAlearney, A., Hefner, J., Robbins, J., Harrison, M., & Garman, A. (2015). Preventing Central Line–Associated Bloodstream Infections: A Qualitative Study of Management Practices. Infection Control & Hospital Epidemiology, 36(5), 557-563. doi:10.1017/ice.2015.27
OBJECTIVE: To identify factors that may explain hospital-level differences in outcomes of programs to prevent central line–associated bloodstream infections.
DESIGN: Extensive qualitative case study comparing higher- and lower-performing hospitals on the basis of reduction in the rate of central line–associated bloodstream infections. In-depth interviews were transcribed verbatim and analyzed to determine whether emergent themes differentiated higher- from lower-performing hospitals.
SETTING: Eight US hospitals that had participated in the federally funded On the CUSP—Stop BSI initiative.
PARTICIPANTS: One hundred ninety-four interviewees including administrative leaders, clinical leaders, professional staff, and frontline physicians and nurses.
RESULTS: A main theme that differentiated higher- from lower-performing hospitals was a distinctive framing of the goal of “getting to zero” infections. Although all sites reported this goal, at the higher-performing sites the goal was explicitly stated, widely embraced, and aggressively pursued; in contrast, at the lower-performing hospitals the goal was more of an aspiration and not embraced as part of the strategy to prevent infections. Five additional management practices were nearly exclusively present in the higher-performing hospitals: (1) top-level commitment, (2) physician-nurse alignment, (3) systematic education, (4) meaningful use of data, and (5) rewards and recognition. We present these strategies for prevention of healthcare-associated infection as a management “bundle” with corresponding suggestions for implementation.
CONCLUSIONS: Some of the variance associated with CLABSI prevention program outcomes may relate to specific management practices. Adding a management practice bundle may provide critical guidance to physicians, clinical managers, and hospital leaders as they work to prevent healthcare-associated infections. Infect Control Hosp Epidemiol 2015;00(0): 1–7Research Critiques And PICOT Statement.
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