please see the instructions below

please see the instructions below

For this Assignment, you will examine the stakeholders impacted by the implementation of the Affordable Care Act (ACA). Your paper must include the following topics: • Differentiate between at least three groups of stakeholders impacted by the ACA. • Examine the financial impact of the ACA on each group of stakeholders. • Summarize benefits of the ACA on each group of stakeholders. • Summarize drawbacks of the ACA on each group of stakeholders. The word count for your paper, excluding the title page and references page, will be 800-1200 words. You must include a minimum of (5) different scholarly references.

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For this Assignment, you will examine the stakeholders impacted by the implementation of the Affordable Care Act (ACA). Your paper must include the following topics:

  • Differentiate between at least three groups of stakeholders impacted by the ACA.
  • Examine the financial impact of the ACA on each group of stakeholders.
  • Summarize benefits of the ACA on each group of stakeholders.
  • Summarize drawbacks of the ACA on each group of stakeholders.

The word count for your paper, excluding the title page and references page, will be 800-1200 words. You must include a minimum of (5) different scholarly references.

NSG482 Phoenix Disaster Response and Emergency Preparedness Analysis

NSG482 Phoenix Disaster Response and Emergency Preparedness Analysis

Public health officials can play a huge part in disaster planning and emergency preparedness.

Analyze disaster response and emergency preparedness:

  • Identify nursing roles and responsibilities during each phase of disaster management. Consider:
  • Planning
  • Preparedness
  • Response
  • Recovery
  • Evaluate your community or state’s plan for preparedness and disaster management:
  • Does it include provisions for each phase of preparedness and disaster planning?
  • Does it clearly account for community needs?

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  • Does the plan include evidence of thought beyond the written report?
  • Is there evidence of a record keeping system for resources, treatment, and identification of victims?
  • Are there redundancies built into the plan should one option fail? Are backup plans in place?
  • Analyze the plan for addressing mass casualty situations.

Include at least one peer-reviewed and one evidence-based reference( must be within the last 3 years), and an APA-formatted reference page.

Format your assignment as: 600 word paper

Apaformar reference1 each DB reply summarize to two paragraphs 400 words each reply.

Apaformar reference1 each DB reply summarize to two paragraphs 400 words each reply.

Reply This DB 1. A) The Angry Patient who has been waiting a long time for an appointment and is disgusted with health care in general. Rhoads and Peterson (2018) inform readers that sometimes the connection that the provider has with the patient can be difficult from the start, especially if the patient has something to be angry about from the very beginning (p. 4). I believe that when dealing with a patient who is angry it is best to introduce yourself initially. Once you have introduced yourself, let the patient know that you

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value their time by apologizing about the wait they have had to endure in the waiting room. I would try to steer the patient’s attention towards something positive and would attempt to make up for the long wait by being a professional provider. Next, I would ask for the patient’s consent to get a comprehensive health history (CHH). I would demonstrate how important the patient is to me as a provider by making sure the patient has my undivided attention by active listening, preventing interruptions, not acting rushed, and taking the necessary amount of time to care for this patient. It is also important to watch for the patient’s body language and remain calm if the patient continues to be upset. Ingram (2017) discusses that working with difficult patients can make obtaining a comprehensive health history (CHH) challenging. This author stresses the importance of overcoming time constraints, showing respect via active listening, showing empathy for the patient’s current situation or complaints, and being supportive of the patient. Ingram (2017) also informs providers that when dealing with difficult or angry patients, it can help if you, as a clinician, can find something you like about that certain patient. I know that I have cared for angry patients and angry family members because of a long wait in the waiting room or for some other reason. Do you recall a situation in which you cared for an angry patient? How did you deescalate the situation? 1. Is the framework for this study based on a conceptual model of nursing? Explain. The framework for this study is the Health Belief Model (HBM) and it is a conceptual model of nursing. It is being used to show how the children of adolescent mothers are more susceptible to health problems compared to the children born to an average age mother. 1. Would the HBM be described as a shared theory? Explain. HBM can be described as a shared theory due to it being a theory that has been initially borrowed from psychology and applied to nursing problems. One study on the H1N1 vaccine was tailored to enhance the explanatory framework for communication research of the HBM (Jones, et al., 2014). 1. Is the HBM a grand theory? Explain. The HBM is a borrowed theory that focuses on the perceived health issues and actions needed to be taken to help with those issues. It is listed as a model or framework in the nursing field (Polit, 2019). 1. Was the HBM used as a basis for developing hypotheses in this study? Explain. Yes, the HBM allowed the researchers to form a hypothesis regarding the population of focus. They hypothesize that young mothers cannot perceive how susceptible they are to health risks. Also, researchers believe that adolescent mothers can’t accurately provide the health interventions needed for their infants compared to aged mothers. Finally, adolescent mothers are not attuned to the costs of care. This all is impacted by the level of maturity.
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Factors Influencing Parents Decision to Donate Infant DNA for Minimal Risk Genetic Research

Factors Influencing Parents Decision to Donate Infant DNA for Minimal Risk Genetic Research

Qualitative Study Critique- 75 points possible The purpose of this assignment is to develop skills in reviewing and appraising research articles. Specific details are considered to determine quality, utility, and evidence. Review Chapter 4 in: Polit, D. F., & Beck, C. T. (2018). Essentials of nursing research: Appraising evidence for nursing practice (9th ed.). Philadelphia, PA: Lippincott Williams & Wilkins. PLEASE USE THIS TEMPLATE for the assignment – save with your last name and submit in Canvas. Direct quoted material from the article may be used to help explain answers and identify components (must include article page number). Please address all questions – briefly with simple items, phrases, or (if required) a sentence or two. If a yes/no question – please answer as appropriate – if not applicable, please state – not applicable. List references ONLY

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IF other than the article being reviewed or the course text. Helpful strategy – first view the critique template – to have an idea of what items to keep in mind when reading the article. 1. APA citation (2 points possible) 1.1. Provide the reference (authors, year, title, volume, issue, pages, doi) in correct APA format: (use italics where appropriate, etc.) — (2 pt.) 2. Introduction: Problem and Purpose (4 points possible) 2.1 Is the problem clear, precise and well defined? Briefly identify. literature review/ (1 pt.) 2.2 Is a good argument made for the importance of the problem to clinical practice, research, theory, or knowledge and policy development? Briefly explain. (3 pts) 3.Introduction: Background/ Literature Review (5 pts possible) 3.1 How many articles in the background /literature review are within and after five years of the article’s publication date? (Often in published studies, the literature review is not a separate section titled Literature Review, but a literature review is included in the Introduction or Background section.)(1 pt) 3.2 What is the publication date range of the background/literature review articles? (1 pt.) 3.3 From what type of sources (studies, relevant organizations, media)? (1 pt.) 3.4 Are the current gaps in knowledge clearly presented? Briefly explain? (note: typically related to the purpose for the study) (2 pt.) 4. Introduction: Conceptual/theoretical framework Research Questions or Hypotheses (4 points possible) 4.1 Is a Research Question or PS (Population/Situation) Question presented? If yes, please include here: (1 pt.) 1Quantitative 19SU 4.2 Is a Theoretical or Conceptual Framework presented? If yes, please include here: (1 pt.) 4.3 What is the Main overall topic (in a broad sense) – i.e. childhood obesity, surgical site infections, medical error? (2 pt.) 5. Method: Protection of Human Rights (8 pts possible l) 5.1 Was the study approved by an IRB? (1 pt.) 5.2 What appropriate procedures were used to safeguard the rights (ethics, confidentiality) of all study participants? Explain. (3 pts) 5.3 Were any vulnerable populations used in the study? If yes, who? (2 pt.) 5.4 What risks may subjects be exposed to while participating in the study? (2 pt.) 6. Method: Research Design (9 pts possible) 6.1 What was the type of qualitative research design used? (i.e. phenomenology, grounded theory, ethnography, etc?) (3 pts) 6.2 Were the steps in the method congruent with the qualitative design used? Briefly explain (3 pt.) 6.3 Was the method used appropriate for the study? Briefly explain how? (consider the aim of the study) (3 pts) 7. Method: Population and Participants (10 pts possible) 7.1 Who or what (if the sample includes material items) is identified as the target population/item? (2 pts) 7.2 How were the participants chosen (sampling method: i.e. randomly, convenience sampling, snowball, etc.)? (2 pts) 7.3 How many participants were in the study? If focus groups, how many groups and number in each group? (2 pt.) 7.4 What were the participant inclusion criteria and exclusion criteria? (2 pt.) 7.5 Did any of the participants drop out (attrition)? If yes, was it explained why (please share)? (2 pt.) 8. Method: Data collection and Analysis (7 pts possible) 8.1 How were data collected? (interview, observation) (3 pts) 8.2 Was a software program used for data analysis (i.e. MAXQDA, ATLAS.ti, NUD*IST, NVivo)?(1 pt.) 2Quantitative 19SU 8.3 Were the data collected in a way that decreased bias? Explain. For example, was the staff collecting data appropriately trained, or inter-rater reliability addressed? (credibility) Explain. (3 pts) 9. Results: Trustworthiness (credibility, dependability, confirmability, transferability) (6 pts possible) 9.1 Were any of these steps taken to ensure Trustworthiness? (6 pts.) a. Two independent researchers analyze data separately, briefly explain: b. Participants are given a chance to validate findings, briefly explain: c. Researcher has findings validated by other researchers, briefly explain: 10. Discussion: Interpretation of the Findings (11pts possible) 10.1 What were the major findings presented (themes, core categories)? Briefly Discuss. (4 pts) 10.2 Were tables, figures, and/or models used? (1 pts) 10.3 If a model/diagram was presented, does it clearly illustrate the findings? (2 pts.) 10.4 Were all research questions discussed? (2 pts) 10.5 Can the findings be applied outside of the context of the study (transferability)? Are the results meaningful to others? (2 pts.) 11. Discussion: Limitations (4 pts possible) 11.1 Did the researchers discuss the limitations and strengths of the study? Briefly What were they? (3 pts) 11.2 Were there other limitations that you recognized? (1 pts) 12. Discussion: Implications/Recommendations (5 pts possible) 12.1 Do the conclusions accurately reflect the data? Briefly explain. (2 pts/) 12.2 Are the implications for practice clearly presented? Briefly Explain (1 pts) 12.3 Are suggestions for future research clearly presented? Briefly Explain (1 pts) 12.4 How do you see this research useful in HC? (1 pts) List references ONLY IF other than the article being reviewed or the course text. 3Quantitative 19SU CLINICAL SCHOLARSHIP Factors Influencing Parents’ Decision to Donate Their Healthy Infant’s DNA for Minimal-Risk Genetic Research Linda A. Hatfield, PhD, NNP-BC1 & Margaret M. Pearce, MSN, FNP-BC2 1 Xi, Assistant Professor of Evidence-Based Practice, School of Nursing, University of Pennsylvania and Director of Research and Evidence-Based Practice, Department of Nursing, Pennsylvania Hospital, Philadelphia, PA, USA 2 Eta Beta, Magnet and Patient Outcomes Director, Department of Nursing, Pennsylvania Hospital, Philadelphia, PA, USA Key words Infant, pediatric, genetic research, parents, knowledge Correspondence Dr. Linda A. Hatfield, University of Pennsylvania School of Nursing, Claire M. Fagin Hall-Room 415, 418 Curie Blvd., Philadelphia, PA 19104-6096. E-mail: lhat@nursing.upenn.edu Accepted: May 11, 2014 doi: 10.1111/jnu.12096 Abstract Purpose: To examine factors that influence a parent’s decision to donate their healthy infant’s DNA for minimal-risk genetic research. Design: Grounded theory, using semi-structured interviews conducted with 35 postpartum mother or mother–father dyads in an urban teaching hospital. Data were collected from July 2011 to January 2012. Methods: Audiorecorded semistructured interviews were conducted in private rooms with mothers or mother–father dyads 24 to 48 hr after the birth of their healthy, full-term infant. Data-driven content analysis using selected principles of grounded theory was performed. Findings: Parents’ willingness to donate their healthy infant’s DNA for minimal-risk pediatric genetic research emerged as a process involving three interacting components: the parents, the scientist, and the comfort of the child embedded within the context of benefit to the child. The purpose of the study and parents’ perception of their commitment of time and resources determined their willingness to participate. The scientist’s ability to communicate trust in the research process influenced parents’ decisions. Physical discomfort of the child shaped parents’ decision to donate DNA. Parental perception of a direct benefit to their child affected their willingness to discuss genetic research and its outcomes. Conclusions: Significant gaps and misunderstandings in parental knowledge of pediatric genetic research may affect parental willingness to donate their healthy child’s DNA. Clinical Relevance: Nurses knowledgeable about the decision-making process parents utilize to donate their healthy infant’s DNA for minimal-risk genetic research and the factors influencing that decision are well positioned to educate parents about the role of genetics in health and illness and reassure potential research participants of the value and safeguards in pediatric genetic research. Historically pediatric genetic research has been conducted on children who are at risk for or potential carriers of genetic conditions (Liem, Cole, Pelligra, Mason, & Thompson, 2010). The primary justification for the recruitment of at-risk infants into genetic research has been that the benefits the infant will receive from participation in the research study outweigh the potential study 398 risks (Wilfond & Ross, 2009). The recruitment of healthy infants in genetic research is considered more challenging due to parental attitudes and concerns about the risks for their healthy infant. This article will explore the process and factors that influence parents’ decision to donate their healthy infant’s DNA for minimal-risk genetic research studies. Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Hatfield & Pearce There is a paucity of literature discussing the problems of recruiting healthy children into nontherapeutic research (Gammelgaard, Knudsen, & Bisgaard, 2006). The National Children’s Study (NCS) is a longitudinal cohort study initiated by the U.S. National Institute of Child Health and Human Development (NICHD) in collaboration with the Centers for Disease Control and Prevention, U.S. Environmental Protection Agency, and National Institute of Environmental Health Sciences. The study will examine the effects of genetic and environmental influences on the health and development of more than 100,000 children across the United States, following them from before birth until age 21 (NCS, 2012). Authorized by Congress in 2000 and launched in January 2009, increasing projected costs (from an estimated $3.1 billion to about $6.7 billion; Belluck, 2010) and low enrollment (Savitz & Ness, 2010) are among the problems that hindered the study’s advancement. As of July 2012, the study spent $1 billion to enroll 3,650 participants ($273,972.00 per child; NCS, 2012). The unexpected difficulties the NCS is experiencing in recruitment may be partially explained by parents’ lack of knowledge and their attitudes and misconceptions surrounding pediatric genetic research (Gillam, Poulakis, Tobin, & Wake, 2006). Although most of the literature exploring parental attitudes and beliefs about participation in genetic studies focused on genetic testing rather than genetic research, two articles looked specifically at parental attitudes toward genetic research. Nechuta et al. (2009) assessed attitudes of a multiethnic sample of pregnant women about the smallest amount of compensation required for their participation in five data collection procedures: a 45-min in-person interview, a 15-min telephone interview, maternal and infant medical record abstraction, and an infant physical examination. Willingness to participate in decreasing order were highest for telephone interview (83%), inperson interview (60%), infant examination (57%), and maternal (56%) and infant (54%) medical records. Education greater than high school was associated with increased refusal for infant physical examination. Refusal of all procedures was significant among more highly educated women. About 9% to 34% of pregnant women, depending on the procedure, stated they would not participate in noninvasive research procedures such as medical record abstraction and infant examination, even with compensation. While this study was not population based and therefore may not be generalizable to all pregnant women and the data collection occurred in clinics where pregnant women may feel healthcare providers support the study, it is notable that a significant number of women were quite resistant to noninvasive medical Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Parental Knowledge of Pediatric Genetic Research research during pregnancy and infancy. This is an important message for pregnancy and newborn research. Gillam et al. (2006) conducted 17 semistructured interviews with parents of primary school children who were participating in a pilot hearing test following otitis media with effusion. The focus of the interviews was to explore parents’ understanding of issues surrounding the participation of their infants in genetic research. Overall parents felt positive about their child’s participation in genetic research but had little knowledge of the legal and social issues surrounding the participation of their children in the study. Parents were unfamiliar with genetic research, were concerned about who would have access to their children’s DNA, and wanted to know the outcome of their child’s genetic testing. Although participants in this study were parents of primary school–age children instead of infants, the data identified a need for parental a priori knowledge of genetics and genomics, a complete understanding of what will happen during the study, and disclosure of specimen use after study completion. Minimal risk is an essential concept in this study. Minimal risk is defined as the probability and magnitude of harm or discomfort in the proposed research is not more than ordinarily encountered in daily life or during the performance of routine physical or psychological examinations or tests (U.S. Department of Health and Human Services, 2011). Until quite recently, this was considered the primary risk for genetic research. Debate about the social and policy implications of genetic information and the processes for ensuring the privacy of participants and the confidentiality of the data is vitally important and is occurring on a national and international level. To date, institutional review boards (IRBs) have not reached a consensus for assigning a level of risk to genetic research. As recently as 2011, genetic studies were being designated as minimal-risk research (Desch et al., 2011). Our findings demonstrate that despite IRB assurances the study adequately protects the confidentiality and privacy of the participants, parents perceive the risks associated with genetic research greater than minimal risk. The purpose of this study was to explore the process and factors that influence parents’ decision to donate their healthy infant’s DNA for minimal-risk genetic research. This study answers the following qualitative research questions: What is the process parents utilized to arrive at a decision to enroll their healthy infant in minimal-risk genetic research? What do parents of newborn infants perceive as factors that influence their decision to donate their healthy infant’s DNA for minimal-risk genetic research? 399 Parental Knowledge of Pediatric Genetic Research Hatfield & Pearce Methods Table 1. Sample Characteristics Study Design Variable Grounded theory methodology (Strauss & Corbin, 1998) explored the process and identified factors that parents utilized to arrive at a decision to donate their healthy infant’s DNA for minimal-risk genetic research. Face-to-face, semistructured interviews were conducted with a convenience sample of 35 mothers or mother– father dyads. The institution’s IRB approved the study. Age (years) Maternal Paternal 29.9 (19–40) 33.3 (23–50) Child sex Male Female (n = 18), 52% (n = 17), 48% Number of children First child Siblings at home (n = 8), 23% (n = 27), 77% Marital status Married Unmarried (n = 23), 67% (n = 12), 33% Parental education High school incomplete High school Some college Associate degree Bachelor’s degree Master’s degree Doctoral degree (n = 3), 7% (n = 5), 15% (n = 7), 20% (n = 1), 4% (n = 10), 28% (n = 4), 11% (n = 5), 15% Ethnicity Caucasian African American Hispanic Chinese (n = 19), 54% (n = 12), 35% (n = 3), 9% (n = 1), 2% Interviews Mothers only Father only Mother–father dyad (n = 19), 54% (n = 1), 3% (n = 15), 43% Setting All participants were recruited from an urban teaching hospital postpartum unit located in a major northeastern US city. The 520-bed acute care hospital has the largest number of annual births in the city, approximately 5,000 annually. All interviews took place in the mothers’ private rooms. Sampling Methods Purposive sampling identified parents who met the eligibility criteria. Eligibility criteria included that the parents were fluent in English and had delivered a full-term infant (gestational age greater than 37 weeks), and that the infant was not admitted to the neonatal intensive care or intermediate care nursery and did not present with an acute or chronic illness (e.g., respiratory distress, unable to maintain temperature, feeding difficulties, etc.). Only parents participated in the study. Infants were not enrolled in the study. Sociodemographic characteristics are presented in Table 1. Semistructured Interview Guide All qualitative interviews utilized a semistructured interview format. The format of the interview was a funneling technique that started with demographic questions, progressed toward parental knowledge and attitudes of pediatric genetic research, and then worked toward specific questions about factors that may influence their decision to donate their infant’s DNA (May, 1989). Initial probing questions were open ended, such as “Can you tell me more about that?” and “Can you tell me what you mean by that statement?” Additional probing questions asked about different factors influencing DNA donation, such as prior experience with genetic testing or research, parental time commitment to the study, parents’ resources, the role of the scientist, and the child’s discomfort. The structure of the probing questions mirrored the structure of the interview; probing questions progressed from general to specific. Parental interviews 400 Mean (range), (n) frequency were designed to explore and clarify individual ideas but each mother or mother–father dyad was asked questions in the same focal area to ensure dependability in data (Graneheim & Lundman, 2004). Data Collection The principal investigator (PI) and co-investigator conducted all interviews. Data collection occurred over 7 months, from July 2011 to January 2012. When mothers were admitted to the postpartum unit, registered nurses working on the postpartum unit asked mothers if they would be interested in hearing about the study. If mothers were willing to hear about the study, the registered nurse informed the PI or co-investigator. The PI or coinvestigator met with the parents, explained the study, answered questions, and obtained written informed consent. The interviews were conducted in the mother’s private room. Each interview progressed at a comfortable pace, allowing the participants the opportunity for flexibility and expression, and lasted approximately Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Hatfield & Pearce 20 min. All interviews were audio taped. Field notes reflecting interactions and surroundings were transcribed immediately following the interview. Data Analysis All interviews were completely transcribed, checked against the audio recordings, and imported into NVivo (version 9, QRS International, Victoria, Australia) for analysis. Names of participants and other identifying information were removed from typed transcripts to protect confidentiality. Descriptive statistics depicted demographics and characteristics of categories. Data collection and analysis occurred simultaneously by the PI and co-investigator. Data analysis involved three levels of coding (Strauss & Corbin, 1998). First, interviews were open coded. Substantial notes guided and synthesized the analysis and served as a written record of analytical decisions. Second, constant comparison analysis methodology tested emerging code development and provided an understanding of the interactions within the data. By utilizing inductive comparison of data throughout each stage of the analytic process (quotes, codes, categories, themes), abstract concepts emerged. Categories appeared in level II coding by clustering codes together using their similarities to relevant genetic interactions. Relationships between themes determined whether the themes would collapse into a larger category. Third, selective coding ensured that all available data were associated with an emerging category and that a core category was identified. Theoretical saturation was attained when no new data emerged from further interviews. Axial coding was utilized to describe factors that influence parents’ decision to donate their child’s DNA. Parental Knowledge of Pediatric Genetic Research nition of “benefit to the child,” (excluding federal subsidies provided to children), there is a consistent and compelling view that benefit to the child ensures no risk to the child but may provide some margin of improvement to future outcomes. Benefit to the child was defined in this study as an event that has a positive physical, psychological, or social outcome for the child. The process parents utilize to assess benefit to their child is guided by the interacting components of the model. The interacting components of the process are threefold: the parents, the scientist, and the comfort of the child. Parents’ decisions about study participation in the present were influenced by what was expected of them and their child during the study. Parental concerns for their child’s well-being in the future were focused on how study findings would affect their child’s life. If parents felt there was minimal inconvenience for them and their child in the present and the future, they next wondered about the integrity of the scientist. The scientist influenced parents’ attitudes by presenting information the parents perceived as important (such as disclosing the “real” reason for the study). Parents worried that their child’s privacy and the confidentiality of data could not be protected. They worried that the genetic information could be harmful to their child in the future. Knowledge that the child would be comfortable and not be exposed to study risk or pain influenced parents’ decisions. Parents acknowledged other factors, such as knowledge of genetic testing and knowledge of genetic research, as having a direct role in their decision to participate in genetic research. Final decisions were made when parents evaluated their time and resource commitment, the scientist’s character, and the risks to the child. Each element of the decision to donate healthy infant DNA is described below. Findings Postpartum women (n = 159) were approached and asked if they would be interested in hearing about the study. One hundred and eight women refused to participate, two women did not respond. Forty-nine women agreed to be interviewed. After agreeing to be interviewed, 14 women were unavailable at the time they requested that the investigators return. Data were theoretically saturated at 29 interviews. Six more interviews were conducted with no new comments, categories, or themes emerging. Parents’ willingness to donate their healthy infant’s DNA for minimal-risk genetic research emerged as a process involving a core category (benefit to the child in the present and the future) and three interacting components: the parents, the scientist, and the child’s comfort (Figure 1). Whereas there is no standard defiJournal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International The Context of Benefit to Child All decisions occurred within the context of benefit to child. Parents were concerned about their child’s physical and mental well-being in the present and in the future. All parents expressed reluctance to participate in minimal-risk genetic research if they suspected risk to their child. Parents described newborn experiences that they perceived as harmful or stressful, such as a difficult birth, that influenced their decision: “I would not put him in a study. He has already been through so much. I do not want to put him through anything else.” The child’s legal rights and the impact of the parents’ decision on the child’s future were a concern for parents. One father was unwilling to donate his child’s DNA because of his uncertainty of what that would mean for his child in the future: 401 Parental Knowledge of Pediatric Genetic Research Hatfield & Pearce Parent’s knowledge of genetic testing or research Little or no knowledge Some or extensive knowledge Scientist Unlikely to participate in pediatric genetic research Child’s comfort Benefit to the child Parents Figure 1. Model depicting the process of parents’ decision to donate their healthy infant’s DNA for minimal-risk genetic research. I cannot make this decision. It is not my DNA. This is something he needs to decide. This would be a violation of his rights. I won’t do that. If he decides he wants to do it then it was his decision. Therapeutic misconception was a consistent theme throughout the interviews with parents. If parents perceived a therapeutic benefit to their child, they regarded pediatric genetic research as valuable and were willing to discuss genetic research and its outcomes: “I would do it if there was something wrong with him or his siblings.” Parental perception of benefiting the child was not influenced by the gender of the child. However, there were more negative paternal attitudes than negative maternal attitudes, except in single mother families. Paternal negative attitudes for genetic research involving their infant were predominately absolute: “No, I would not participate for any reason.” When parents were questioned if compensation would influence their decision to participate, mothers and fathers responded that compensation would not change their minds. Probing questions explored whether monetary compensation would influence parental decisions. All parents stated that no amount of money would influence their decision to refuse participation in genetic research. “No. No amount of money. I just won’t do it. It is not worth endangering my child.” The Parents Parents described several factors that motivated their decision to enroll their healthy infant into a pediatric genetic research study: study purpose, duration, frequency 402 of visits, travel, and expense. Seventy percent of parents (n = 21) voiced these concerns as the primary factors influencing their decision. Seventeen percent of parents (n = 6) stated they had no interest in participating in a genetic study. These parents had no questions and stated there were no factors for them to consider. Study purpose. Parents were focused on the purpose of the study. They wanted specific answers to questions about how necessary is the study, what will be done, why, what will the results be used for, who would have access to the genetic findings, and what is expected from the parents and the baby. I want to know what they will be doing and do they know what they are doing? Will it harm the baby? Will I get into trouble for these tests? I watch the sci-fi channel. I see what scientist do; they stick you with a bunch of needles and use your blood for someone else. Utilization of study findings was another concern of the parents. One parent was concerned that the genetic research would be used to encourage unethical behavior: “What kind of tests are they testing? What are they going to do with what they find? Are they going to use it to do something like terminate pregnancies? I want no part of that.” If the study purpose benefited other children, one mother felt she would participate in the research: If it will benefit . . . as far as genetics . . . in finding some type of . . . as long as I know the purpose of the genetic testing is . . . if it is positive, if it can determine some Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Hatfield & Pearce type of results that will help children in the future. I would do it. Duration and frequency of visits. Demands on parents’ and infants’ time was equally important to parents, especially to parents with other children at home. First-time parents were worried about managing the time and travel with a newborn: “I would want to know how long will the study last? How many times do I have to come back? I can’t find anyone to be with my other kids.” And: “If it is not convenient and it’s going to be a long time, I am not interested. I can’t be coming back and forth for this with a baby.” Parental Knowledge of Pediatric Genetic Research like insurance companies. It [giving DNA] is like letting a genie out of the bottle.” The Child’s Comfort Travel and expense. Parental commitment to travel and expense were linked to the duration and frequency of visits. The expense incurred related to the frequency of the visits and influenced the decision to participate. For some parents the distance they would have to travel was a major concern: “I guess I would want to know where would we have to go. I can’t come here. It is too far. It would cost too much.” All parents expressed concern about the method of collecting the DNA. Most were under the impression the collection of DNA would be accomplished by drawing blood from their infant. Thirty-seven percent of parents (n = 11) would refuse to donate their infant’s DNA if they were exposed to study risk or pain: “If there are side effects or a needle involved . . . no. I do not want to hurt him physically or mentally.” Further probing asked parents if donating a sample of their child’s DNA could tell them what genes influence how their child would respond to and adapt to pain, would that influence their decision to allow their child to participate in a genetic study? Interestingly, parents said it would not be a factor in genetic study participation: “Pain is not a big concern, it is a part of life . . . it is something you have to go through, it is not a strong enough idea to study.” The Scientist Other Influences Parents expressed significant mistrust of the scientist. Their concerns focused on the scientist’s accountability and the ability of the scientist to protect their child’s privacy and confidentiality. No parents felt their data were completely secure and worried about the consequences of the loss of privacy and confidentiality. Only three parents trusted the scientist and scientific process. Parents’ understanding of genetics and its implications for their child’s health provided the backdrop for their decision to participate in genetic research. Personal knowledge, experiences with genetic testing, or knowing someone involved in genetic testing influenced parents’ willingness to hear about genetic research, but not their decision to participate. No parent voiced a concern about wanting or needing to know more about genetics or genetic research. Scientist accountability. Parents were concerned the scientist would not be truthful when they explained the study to them. Fifty-seven percent of parents (n = 17) stated they would not participate because they did not believe scientists would be truthful about the study goals. Permission to store their infant’s DNA was refused by 90% (n = 32) of the parents interviewed: “Do care about [her] well-being but . . . I don’t know . . . how can you prove they are actually using the DNA for . . . is it true? How can I trust it is being used for what you say it is?” And: “No to storage. I do not want anyone experimenting with my kid’s DNA. They do different stuff with DNA like clone babies. It is an unnatural way of life.” Protection of privacy and confidentiality. Parents’ mistrust of scientists extended to their ability to protect the privacy and confidentiality of the data. Parents felt the scientist would use the DNA for reasons they did not disclose and the safeguards in place to protect the data were not adequate: “I am worried about privacy issues Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Parents’ knowledge and attitudes of pediatric genetic research. Most parents had little or no knowledge of genetics or genetic research, and all but one parent confused clinical genetic testing with genetic research. Parental knowledge of genetics is an important impediment to parents enrolling their healthy infants into genetic research. Although we did collect data on parental a priori knowledge of genetics, a detailed discussion of the findings is beyond the scope of this article. Our findings suggest that if parents had some a priori knowledge of genetics they would be more willing to hear about the study. Parents having little or no knowledge of genetics stated they would not be interested in hearing about or participating in the study. The distinctions between clinical genetic testing and genetic research testing (i.e., the purpose of the genetic test and who receives the results of the test; Lister Hill National Center for Biomedical Communications, 403 Parental Knowledge of Pediatric Genetic Research 2013) confused parents. Seventy-six percent of parents (n = 27) stated that parents and infants who participate in genetic research should be entitled to the results of the genetic tests. Parents’ knowledge and attitudes of genetics varied widely. Some parents simply answered they did not know anything about genetics and did not (or could not) expand on their answers. Other parents who chose to explain their answer were hesitant and unsure: I don’t really know much. Just that you can get genetic testing while you are pregnant so you know what you are in for.” They do genetic research to find out things that might be wrong with babies, help cure genetic disease, and things like that. Basically, that is what genetic research is for, help cure disease and helps predict when they are coming. Seventy-three percent of parents (n = 26) were opposed to participation in genetic research and storage of DNA and stated that no amount of compensation would influence their decision: Genetic research is just not normal. That’s my only reason. I really don’t have a reason behind that. It probably sounds bad coming out of my mouth, it is just not normal. You have a baby you take it home and enjoy that and that’s it. Like you don’t want to give out DNA and go through all that extra stuff. No one wants to do that. Information source for pediatric genetic research. Parents received their genetic information from disparate sources. Much of their information was inaccurate, applied to genetic testing rather than genetic research, and was obtained from unreliable sources. Personal experience or knowing someone who had genetic testing created the need for genetic knowledge and influenced the acquisition and amount of genetic information parents sought. Parents perceived outside factors such as the media or nonpersonal genetic situations (such as a friend of a friend had a genetic test) as having a direct role in genetic knowledge acquisition: My sister actually told me some stuff. I think she had it done, ‘cause my nephew has autism or something like that. They do stuff like that all the time. But I do not know exactly what they do. I know what I hear on sci-fi TV. It is not really much; they are using it to clone. That is the only thing I heard about. Like cloning a fetus or using DNA to 404 Hatfield & Pearce clone sperm and eggs. In case in one family something happens to one they have another. Discussion Overall, there are considerable misconceptions and lack of knowledge about genetics and genetic research and many disparate factors that influence parents’ decision to donate their healthy infant’s DNA for minimalrisk pediatric genetic research. The findings describe the process parents utilize to arrive at a decision to donate their infant’s DNA by identifying the core variable, the overall context, and main interacting components: the parents, the scientist, and child comfort. Parental willingness to participate in genetic research is influenced by a core variable, parental perception of what is in the best interest of their child. If parents believe that there is direct benefit to the child, they are more likely to participate in the research. Parental knowledge of genetic research represents the first decision point for the parental decision-making process. If parents have a priori knowledge of genetics, they are more willing to hear about the study. Parents who do not have knowledge are less likely to show interest in hearing about the study. If parents are willing to hear about the study, their understanding of the study, their financial and time commitments, and the overall convenience of the study influence parents’ decisions. The scientist affects parents’ attitudes by establishing a positive perception of trustworthiness and securing their confidence that the information provided by the scientist is truthful and can be attained. The child’s comfort influenced the parents’ decisions through communication that the child will not be exposed to study risk or pain. Although parental knowledge of genetics or genomics did not have a direct role in parents’ decision to donate DNA, parental a priori knowledge of genetics and genomics was a factor in parents’ willingness to hear about a genetic study. The generally low level of knowledge about genetics and genetic research demonstrates a need for education directed toward the genetic aspects of the study. Parents arrived at their final decisions after evaluating their time and resource commitment, the scientist’s character, and the comfort and risks to the child. The most influential factors described by the parents were the study purpose and resource and time commitment and the trustworthiness and accountability of the scientist. The purpose of the study and parental commitments were the most frequently cited factors affecting parental decision making. Parental willingness to allocate time and resources to an interesting and valuable study surfaced in three other studies as an Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Hatfield & Pearce important consideration in parental decisions to donate DNA (Gammelgaard et al., 2006; Jenkins et al., 2009; Nechuta et al., 2009). The trustworthiness of the scientist and the ability to safeguard the data collected was the second most important factor in decision making. Many individuals fear that participating in genetic research or genetic testing may result in discrimination against them based on their genetic profiles. In response to these concerns, the Genetic Information Nondiscrimination Act prohibiting discrimination in the workplace and by health insurance issuers was passed into law in 2008. In addition, there are other legal protections against genetic discrimination by employers, issuers of health insurance, and others (National Human Genome Research Institute, 2013). Discussions about genetic research, especially in vulnerable populations such as children, are likely to be ethically contentious or sensitive. To be ethical, research involving children must pose no greater than minimal risk to the child unless the research presents a direct benefit to the child. Healthy infants recruited into pediatric genetic research will most likely not receive direct benefit from the research, and the collection and storage of genetic data are far from risk free. When people are influenced by risk and privacy fears, they not only create risks for their personal health but limit the ability to advance medicine. Healthcare and pharmaceutical industries will depend on large numbers of people willing to share their genetic data to develop the next generation of treatment interventions. However, as these findings demonstrate, people cannot be asked to share genetic information for the common good if personal harm or unreasonable sacrifice of time and energy is a possibility. We need to have adequate privacy protections in place and be able to assure participants of their trustworthiness. Strengths and Limitations While earlier literature has explored parents’ knowledge and attitudes of the recruitment of children who are at risk for or potential carriers of genetic conditions for participation in clinical genetic research, we have not found one that address the recruitment of healthy infants. The inductive data-driven approach utilized in this study to articulate the process parents utilized to make the decision to donate their healthy infant’s DNA fostered a level of detail to emerge from participants voices. In addition, the private interviews allowed for greater depth of independent responses than focus groups or surveys. The limitations of the study include sampling and methodological issues. The study was conducted in an urban inner city hospital postpartum unit. The educational level of the sample may be lower than the national Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Parental Knowledge of Pediatric Genetic Research average. In addition, parents who agreed to hear about and participate in the study may have some interest in genetics, possibly skewing the data to a more concerned and interested sample. A characteristic of the methodology and not necessarily a limitation of the study is that the findings are not transferable to dissimilar populations. Parents in different communities, such as professional and high-tech communities, may emphasize different factors that affect their willingness to donate their healthy infant’s DNA. Another potential limitation is the timeliness of disseminating the study’s findings. Although data collection was completed approximately 2 years ago, the current recruitment challenges facing the NCS and the dearth of rigorous research exploring the recruitment of healthy infants in minimal-risk genetic research suggests the problem has not been resolved. The authors offer the potential concerns, likely areas of misunderstanding, and negative reactions of parents presented in this study as factors that influence parental decisions to donate healthy infant DNA for minimal-risk genetic research. Currently society is the recipient of the benefits of genetic research, while those sharing their genetic information perceive they assume significant risk. This is an unsustainable model (Gutmann, 2012). Removing potential parental barriers is essential for the recruitment of healthy infants into minimal-risk genetic studies that will facilitate medical advances and quality health and, perhaps, decrease healthcare costs. Implications for Research There is an urgent need for nursing research to provide strong evidence for the development of evidence-based genetic and genomic clinical practice guidelines and the documentation of outcomes from genetic- and genomicbased nursing care (Calzone et al., 2010). The nursing outcomes from the limited amount of pediatric genetic research and the impact of that research on public health is extremely limited, if not entirely absent from pediatric nursing clinical practice. If nursing research in clinical genetics and genomics is going to improve the healthcare quality for children and their families, then there must be well-designed pediatric genetic randomized controlled trials with healthy infant controls. Findings from our study suggest that parents who have a prior knowledge of genetics are more willing to hear about genetic research. Further research to explore how parents acquire genetic knowledge and the interaction of genetic knowledge and parental education on the process of decision making is essential to the development of large genomic databases linking variations in DNA with health and disease. 405 Parental Knowledge of Pediatric Genetic Research Implications for Clinical Practice Pediatric genetic research is a powerful strategy in the campaign of 21st century medicine. To ensure that the discoveries in genetics and genomics reach children and families, nurses need to incorporate genetic and genomic research into their clinical practice, understand parents’ concerns about protecting children from unnecessary risk, secure parental trust in the research process, and safeguard children from pain and discomfort. The parents. There is an urgent need for general public knowledge about genetics. Although public opportunities exist for exposure to basic genetic concepts (Discovery Channel, museums, etc.), no parent interviewed in our study stated that they attended an event or watched an educational program on genetics. Nurses, the most trusted professionals (Gallup, 2013) and the largest contingent of healthcare providers in the United States and the world (Calzone et al., 2012) are well positioned to educate parents about the role of genetics in health and illness and reassure potential research participants of the value and safeguards in pediatric genetic research. Targeted education that facilitates optimal genetic and genomic preparation for registered nurses in the workforce can ensure parents will be knowledgeable about genetics and genomics. The scientist. Assuring confidentiality of data and protection of privacy and securing trust in the research process are pivotal nodes in the process of parental decision making. One possible solution for recruiting healthy controls may be the informed consent document and process. Many informed consent documents are lengthy and overwhelming to participants. Few research participants thoroughly read the consent document before agreeing to participate in a genetic study (Desch et al., 2011). Scientists have an opportunity during the informed consent process to assess the document for clarity about the genetic research process, evaluate parental knowledge of genetics, ensure parents understand the language about privacy and confidentiality, and answer any questions parents may have about the research. The child’s comfort. Pain in children is an underrecognized global problem and must become a healthcare priority. Procedural pain during a research study is very difficult for parents because they may feel the experience could be avoided and they cannot make the pain go away. However, many types of procedural pain can be prevented or mitigated. Children and parents should expect that pain will be assessed, prevented, and managed 406 Hatfield & Pearce by nurses trained in pain measurement and management techniques that are specific for infants and children. Conclusions Findings from this study suggest that in order for parents to agree to hear about a pediatric genetic study, a priori genetic knowledge must be provided, misconceptions identified, and the value of the research to health care and society clearly outlined. These data can guide evidence-based decisions for pediatric genetic research recruitment and study design and help parents understand the risks, benefits, and value of enrolling their healthy infants in pediatric genetic research. Understanding why parents enroll their healthy children in genetic studies provides an opportunity to treat children as individuals; implement novel screening, diagnostic, and therapeutic interventions; and improve health outcomes in this vulnerable population. Acknowledgments Support for this study came from Sigma Theta Tau International Honor Society of Nursing #5971. Clinical Resources r r Genomic sequencing in newborn healthcare: http://www.nih.gov/news/health/sep2013/nhgri04.htm Ethical issues with genetic testing in pediatrics: http://pediatrics.aappublications.org/content/ 107/6/1451.full References Belluck, P. (2010, February 16). Wanted: Volunteers, all pregnant. New York Times, p. D1. Retrieved from http:// www.nytimes.com/2010/02/16/health/16child.html? r=0 Calzone, K. A., Cashion, A., Feetham, S., Jenkins, J., Prows, C. A., Williams, J. K., & Wung, S.-F. (2010). Nurses transforming health care using genetics and genomics. Nursing Outlook, 58(1), 26–35. doi:10.1016/j.outlook.2009.05.001 Calzone, K. A., Jenkins, J., Yates, J., Cusack, G., Wallen, G. R., Liewehr, D. J., . . . McBride, C. (2012). Survey of nursing integration of genomics into nursing practice. Journal of Nursing Scholarship, 44(4), 428–436. doi:10.1111/j.1547–5069.2012.01475.x Desch, K., Li, J., Kim, S., Laventhal, N., Metzger, K., Siemieniak, D., & Ginsburg, D. (2011). Analysis of informed consent document utilization in a minimal-risk Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Hatfield & Pearce genetic study. Annals of Internal Medicine, 155(5), 316–322. doi: 10.7326/0003–4819–155–5–201109060–00009 Gallup. (2013). Honesty/ethics in professions. Retrieved from http://www.gallup.com/poll/1654/honesty-ethicsprofessions.aspx Gammelgaard, A., Knudsen, L. E., & Bisgaard, H. (2006). Perceptions of parents on the participation of their infants in clinical research. Archives of Disease in Childhood, 91(12), 977–980. doi:10.1136/adc.2006.096073 Gillam, L., Poulakis, Z., Tobin, S., & Wake, M. (2006). Enhancing the ethical conduct of genetic research: Investigating views of parents on including their healthy children in a study on mild hearing loss. Journal of Medical Ethics, 32(9), 537–541. doi:10.1136/jme.2005. 013201 Graneheim, U. H., & Lundman, B. (2004). Qualitative content analysis in nursing research: Concepts, procedures and measures to achieve trustworthiness. Nurse Education Today, 24(2), 105–112. doi:10.1016/j.nedt.2003.10.001 Gutmann, A. (2012). Privacy and the whole genome sequencing. Retrieved from http://blogs.reuters.com/greatdebate/2012/10/11/privacy-and-whole-genomesequencing/ Jenkins, M. M., Reed-Gross, E., Rasmussen, S. A., Barfield, W. D., Prue, C. E., Gallagher, M. L., & Honein, M. A. (2009). Maternal attitudes toward DNA collection for gene–environment studies: A qualitative research study. American Journal of Medical Genetics, 149A, 2378–2386. doi:10.1002/ajmg.a.33043 Liem, R. I., Cole, A. H., Pelligra, S. A., Mason, M., & Thompson, A. A. (2010). Parental attitudes toward research participation in pediatric sickle cell disease. Pediatric Blood and Cancer, 55, 129–133. doi:10.1002/pbc.22450 Lister Hill National Center for Biomedical Communications. (2013). Genetics home reference: Your guide to understanding genetic conditions. Retrieved from http://ghr.nlm.nih.gov/ handbook.pdf Journal of Nursing Scholarship, 2014; 46:6, 398–407. C 2014 Sigma Theta Tau International Parental Knowledge of Pediatric Genetic Research May, K. (1989). Interview techniques in qualitative research: Concerns and challenges. In J. M. Morse (Ed.), Qualitative health research: A contemporary dialogue. Rockville, MD: Aspen Publishers. The National Children’s Study. (2012). Proposed sampling strategy: Main study. (NICHD Publication No. Unassigned.) Bethesda, MD: U.S. National Institute of Child Health and Human Development. Retrieved from http://www. nationalchildrensstudy.gov/about/organization/ advisorycommittee/Pages/Proposed%20Sampling% 20Strategy%20Main%20Study%20(July%202012).pdf National Human Genome Research Institute. (2013). Issues in genetics. Genetic discrimination. Retrieved from http://www.genome.gov/10002077 Nechuta, S., Mudd, L. M., Biery, L., Elliott, M. R., Lepkowski, J. M., Paneth, N., & The Michigan Alliance for the National Children’s Study. (2009). Attitudes of pregnant women towards participation in perinatal epidemiological research. Paediatric and Perinatal Epidemiology, 23(5), 424–430. doi:10.1111/j.1365–3016.2009.01058.x Savitz, D. A., & Ness, R. B. (2010). Saving the National Children’s Study. Epidemiology, 21(5), 598–601. doi:10.1097/EDE.0b013e3181e942cc Strauss, A., & Corbin, J. (1998). Basics of qualitative research. Thousand Oaks, CA: Sage Publications. U.S. Department of Health and Human Services. (2011). Electronic code of federal regulations: Title 45-Public welfare; Subtitle A-Department of Health and Human Services, Subchapter A-General administration, Part 46-Protection of human subjects, 46.102. Washington, DC: US Government Printing Office. Retrieved from http://ecfr.gpoaccess.gov/cgi/t/text/textidx?c=ecfr&sid=cbfce7ed5c89f80f4a42f4e41e7dde94& rgn=div8&view=text&node=45:1.0.1.1.25.1.1.2& idno=45. Wilfond, B., & Ross, L. F. (2009). From genetics to genomics: Ethics, policy, and parental decision-making. Journal of Pediatric Psychology, 34(6), 639–647. doi:10.1093/jpepsy/ jsn075 407 Reproduced with permission of the copyright owner. Further reproduction prohibited without permission. Grading Rubric for Worksheets/Select Assignments (75 Point Scale) Content ➢ 35 Poor Weak application of concepts, models, and theory. 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Literature Table Author/ Title/ Year Purpose/ Problem Research Question (if presented) Method/ Design Hierarchy of Evidence high/mod/low Population/ Setting Sample size Data collection Findings Limitations (how collected) Survey/ pt record/etc (RAR19SP) RAR FA17 Literature Table Author/ Title/ Year Purpose/ Problem Research Question Method/ Design Hierarchy of Evidence high/mod/l ow Population/ Setting Sample size Data collection (how collected) Survey/ pt record/etc Findings Limitations quasiexperimental FADE

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QI methodology Quality Improvement Project Moderate NSICU patients 322 pts during study period compared to 497 pts prior use of ultrasonographic bladder scanning and intermittent catheterization when necessary for urinary retention. Computer based Education pre-post test averaged 90% One unit – smaller sample (if presented) Alexaitis, I., & Broome, B. (2014). Implementati on of a nursedriven protocol to prevent catheterassociated urinary tract infections. Introduce a nursedriven system None presented Focusing on the problem (CAUTIs); Analyzing data (catheter utilization, CAUTIs, CAUTI rates, compliance with urinary catheter guidelines, and nurses’ knowledge of guidelines); Developing a plan to reduce CAUTIs; and Executing the plan and Evaluating results against targeted goals. And 107 RNs working on the unit NSICU. 30 bed unit Although not statistically significant – it was clinically significant Average catheter duration decreased by 2.5 days, although utilization increased from 74.14% to 76.2% (P = .791); average CAUTI rate decreased by 20.5% (from 3.85 to 3.06 per 1000 catheter days; P = .296), average CAUTIs per month decreased by 14.1% (from 2.33 to 2.0 per month; P = .495). Cost of medications and supplies w/treating CAUTIs decreased 40.7% (from $334 to $198 per patient; P = .514) . Average LOS for pts w/ CAUTIs increased 8.14% (from 39.3 to 42.5; P = .775). RAR FA17 Dy, MajorJoynes, B., Pegues, D., & Bradway, C. (2016). A nurse-driven protocol for removal of indwelling urinary catheters across a multihospital academic healthcare system. Implement NDRP -reduce IUC and CAUTI None presented Pilot -quasiexperimental moderate 365,414 patient days with 65,133 IUC days 3 hospitals within one HC system compared CAUTI rates and IUC device utilization for the 12- month baseline period Provider selection of the NDRP for 40% to 60% of all IUC orders, and enhanced the decision-making skill and autonomy of the nurse providing direct patient care in assessing the daily need for an IUC. Assessment of provider barriers 19% reduction in CAUTI rates per 1,000 IUC days compared to the baseline period (p = 0.13) The NDRP was associated with negligible reduction (0.5%, p = 0.32) in the overall IUC device utilization Not statistically significant although clinically significant Elpern, E., Killeen, K., Ketchem, A., Wiley, A., Patel, G., & Lateef, O. (2009). Reducing use of indwelling urinary catheters and associated reduce CAUTIs in the MICU by limiting use of indwelling urinary catheters. Our specific aims were as follows: • Implement an intervention to limit use of indwelling urinary catheters by No RQ but, The hypothesis was that days of use of urinary catheters and number of CAUTIs would quasiexperimental moderate 337 patients had a total of 1432 days of urinary catheterizatio n 58% were women. The age range was 18 to 99 years, with a a 613-bed, nonprofit, inner city academic medical center. The MICU was a 21bed unit Chart review duration of use was significantly reduced to a mean of 238.6 d/mo from the previous rate of 311.7 d/mo (p=.01). The number of catheterassociated urinary tract infections per 1000 days of use was a mean of 4.7/mo before the intervention Single unit, single institution, 6 month, prior data did not account for patients arriving with indwelling catheters place at outside facility or ER RAR FA17 urinary tract infections. conducting daily evaluations of the appropriateness of catheter use • Recommend removal of catheters when appropriate indications were not present • Compare urinary catheter use and catheter associated urinary tract infection rates before and after the intervention decrease during the interventio n months compared with the 11 months before the interventio n Wenger, J. (2010). Cultivating quality: Reducing rates of catheterassociated urinary tract infection In response to CAUTI rates, the hospital assembled a team to assess the best practices for decreasing the incidence of CAUTI. None Descriptive – presented quasi experimental mean of 61 years. Lowmoderate CAUTis and catheter days from March 2007-June 2009 and zero (p=.001) during the 6-month intervention period. 150 bed communi ty hospital Focus groups to assess barriers, chart review First Education barriers were assessed – found 30% incorrect urine collection – education given Awareness of NDRP – no statistically significant difference between fiscal year 2007 and 2008 (P = 1). But when comparing fiscal year 2008 with fiscal year 2009, there was a statistically significant reduction in the CAUTI rate of 1.23 per 1,000 Foley catheter days (95% confidence interval [CI], 0.6 – 1.87; P = 0.001). Comparing fiscal year 2007 with Unable to separate effect of each individual intervention RAR FA17 2009, there was a statistically significant reduction in the CAUTI rate of 1.72 per 1,000 Foley catheter days (95% CI, 0.68 – 2.77; P = < 0.001). Experience has shown that such a protocol has the most impact when used in concert with education and the best products available. Discussion: benefits of “trips to the bathroom”— decreasing the risk of deep vein thrombosis, pulmonary embolism, pneumonia, and skin breakdown (RAR19SP) RAR FA17 Running head: NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS Nursing Actions to Reduce Use of Urinary Catheters in Intensive Care Units Name College 1 NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS 2 Research Question In adult intensive care patients (P), does a nurse-driven catheter removal protocol (I) compared with the standard practice of catheter removal per physician order (C) reduce rate of Catheter Associated Urinary Tract Infections (O)? Method: (How you searched the literature) TEMPLATE: A literature search was conducted using the databases CINAHL, Medline, and PubMed. Keywords were ____, ___, ___, _______, and ________. Inclusion criteria were ____. Articles were excluded if were duplicate articles, lower levels of evidence, or populations not pertaining to the topic. Four articles were reviewed, list types (cite). See exemplar below. Method A literature search was performed using PubMed, CINAHL, and Medline with the keywords, Catheter associated urinary tract infection, CAUTI, CAUTI prevention, CAUTI prevention ICU, intermittent urinary catheterization, and CAUTI prevention ICU nurse-driven. Articles initially considered for inclusion were full-text, peer-reviewed articles published in English between 2008-2018 that studied adult intensive care (ICU) patients. Exclusion criteria were animal studies, duplicate studies, and studies not focused on the topic or conducted in nonhospital settings. Four articles were chosen for closer examination. All were quasi-experimental studies conducted in the United States (Alexaitis & Broome, 2014; Dy, Major-Joynes, Pegues, & Bradway, 2016; Elpern et al., 2009, Wenger, 2010). NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS 3 Annotated Bibliography Alexaitis, I., & Broome, B. (2014). Implementation of a nurse-driven protocol to prevent catheter-associated urinary tract infections. Alexaitis and Broome (2014) published a quality-improvement project piloted in a 30bed neurosurgical intensive care unit (NSICU) in an academic medical center after a high rate of CAUTI. The purpose of the quality improvement project was to introduce a nurse-driven system for managing urinary catheters which included nursing assessment of the continued necessity of the catheter and removal if it was no longer necessary. The design was quasi-experimental (moderate level of evidence). The rate of CAUTI during the study period (measured in number of CAUTI per 1000 catheter days) was compared to the rate of CAUTI in the time period preceding the experiment. The study protocol focused on the use of ultrasonographic bladder scanning and intermittent catheterization when necessary for urinary retention. The authors describe a thorough training process completed by nearly all the registered nurses of the NSICU. The average catheter duration decreased by 2.5 days, although utilization increased from 74.14% to 76.2% (P = .791). The average CAUTI rate decreased by 20.5% (from 3.85 to 3.06 per 1000 catheter days; P = .296). The average CAUTIs per month decreased by 14.1% (from 2.33 to 2.0 per month; P = .495). In addition, cost of medications and supplies w/treating CAUTIs decreased 40.7% (from $334 to $198 per patient; P = .514) and the average LOS for pts w/ CAUTIs increased 8.14% (from 39.3 to 42.5; P = .775). Although statistically not significant, the decrease in events were clinically significant. Apart from lack of statistical significance, other limitations to this study include the fact that it was conducted on only one patient care unit and no concurrent control group was used. NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS 4 Dy, S., Major-Joynes, B., Pegues, D., & Bradway, C. (2016). A nurse-driven protocol for removal of indwelling urinary catheters across a multi-hospital academic healthcare system. Dy, Major-Joynes, Pegues, and Bradway (2016) published a quality-improvement project attempted simultaneously at three hospitals within one academic healthcare system. The average daily census of the combined hospitals was around 1600 patients. The largest of the hospitals had the highest rate of CAUTI prior to the trial. The purpose of the study was two-fold: to reduce the rate of catheter use and to reduce the rate of CAUTI. The design was quasiexperimental (moderate level of evidence). The trial took place over 12 months, and this data was compared to the data from the 12 months preceding the beginning of the trial. Data were reported for each hospital individually as well as for the entire healthcare system. The project was to introduce a nurse-driven catheter removal protocol (NDRP). Nurses were trained to assess the continued need for a urinary catheter and (if the NDRP was ordered by the physician) were empowered to remove it when no longer needed. At the largest hospital, the rate of catheter use declined significantly (6%, p < 0.001) and CAUTI rates also declined (by 28%, p = 0.05). However, at one of the smaller hospitals, little change was seen. The average decline in catheter use across the healthcare system was only 0.5% (p = 0.32) and the reduction in CAUTI was 19% (p = 0.13). In addition, NDRP was ordered and used in 40% to 60% of patients with catheters. One significant limitation to this study, apart from lack of a concurrent control group and the variation in results seen between the three hospitals, is the fact that the results are reported in terms of CAUTI per 1000 catheter days across the hospital system with no attempt to correlate whether the CAUTI rate was different in patients for whom the NDRP was ordered. Elpern, E., Killeen, K., Ketchem, A., Wiley, A., Patel, G., & Lateef, O. (2009). Reducing use of NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS 5 indwelling urinary catheters and associated urinary tract infections. Elpern et al. (2009) conducted a quality improvement project in the medical intensive care unit (MICU) of an academic medical center over a six-month period. During the study period, 337 patients had urinary catheters, totaling 1432 catheter days. The authors hypothesized, days of use of urinary catheters and number of CAUTIs would decrease during the intervention months compared with the 11 months before the intervention. The study design was quasiexperimental (moderate level of evidence), with the six months prior to the initiation of the NDRP used as the comparison group. Elpern et al. (2009) showed that reductions in catheter days and in CAUTI were associated with the NDRP. Education for nursing staff focused on assessment of the need for a catheter and when a patient was identified as inappropriately having a catheter, it was removed. Senior nursing staff consulted with the bedside nurses throughout the trial of the NDRP. Catheter days were reduced from 311.7 days/month to 238 days/month (p = 0.01) and CAUTI were reduced from 4.7 per 1000 catheter days to zero CAUTI during the study period (p < 0.001). Limitations to this study include the lack of a concurrent control group and a lack of data from the baseline period which could be used to identify confounding factors such as duration of indwelling catheter use that could affect the rate of CAUTI. In addition, the authors noted prior data did not account for patients arriving with indwelling catheters place at outside facility or ER. Wenger, J. (2010). Cultivating quality: Reducing rates of catheter-associated urinary tract infection. Wenger (2010) reported on the process over a two-year period by a 150-bed community hospital in their attempt to reduce CAUTI. This hospital’s CAUTI rate was substantially higher NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS than the national average, especially in its intensive care patients. Education barriers among nurses were assessed and found 30% using incorrect urine collection techniques. Education was provided education for nurses regarding catheter management (such as perineal cleansing, drainage bag positioning, and the use of anchoring devices). The Implementation phase of NDRP was a quasi-experimental design (moderate level of evidence), with CAUTI rates per 1000 catheter days during the study being compared to rates prior to study initiation. No statistically significant change in CAUTI rates was seen during the first year of the study (fiscal year 2007 and 2008, p = 1). However, during the second year (which included the introduction of the NDRP), there was a statistically significant reduction in the CAUTI rate of 1.23 per 1,000 foley catheter days (95% confidence interval [CI], 0.6 – 1.87; P = 0.001). Comparing fiscal year 2007 with 2009, there was a statistically significant reduction in the CAUTI rate of 1.72 per 1,000 Foley catheter days (95% CI, 0.68 – 2.77; P = < 0.001). Limitations to this study include the sequential introduction of several CAUTI prevention measures, which (as the author notes) make it impossible to establish a correlation between any one intervention and the reduction in CAUTI. 6 NURSING ACTIONS TO REDCUE USE OF URINARY CATHETERS 7 References Alexaitis, I., & Broome, B. (2014). Implementation of a nurse-driven protocol to prevent catheter-associated urinary tract infections. Journal of Nursing Care Quality, 29(3), 245252. doi:10.1097/NCQ.0000000000000041 Dy, S. Major-Joynes, B., Pegues, D., & Bradway, C. (2016). A nurse-driven protocol for removal of indwelling urinary catheters across a multi-hospital academic healthcare system. Urologic Nursing, 36(5), 243-249. doi:10.7257/1053- 816X.2016.36.5.243 Elpern, E., Killeen, K., Ketchem, A., Wiley, A., Patel, G., & Lateef, O. (2009). Reducing use of indwelling urinary catheters and associated urinary tract infections. American Journal of Critical Care, 18(6), 535-542. doi:10.4037/ajcc2009938 Wenger, J. (2010). Cultivating quality: Reducing rates of catheter-associated urinary tract infection. The American Journal of Nursing, 110(8), 40-45. doi: 10.1097/01.NAJ.0000387691.47746.b5 Running head: PERI-OPERATIVE PROPHYLACTIC TREATMENT Peri-Operative Prophylactic Treatment to Prevent the Risk of Patients Acquiring Bacterial Infections and Sepsis after Surgical Operations Michael Cole RN College of Central Florida NUR4165 1 PERI-OPERATIVE PROPHYLACTIC TREATMENT Introduction The question as to whether the use of prophylactic antibiotics in post-op patients does within 24 hours after surgery would lead to a decrease in the risk of post-op infection compared to no use of prophylactic antibiotics remains a subject of debate. None the less, it is a common practice that physicians and nurses use prophylactic antibiotics in the hospital setting to help patients undergoing major surgery reduce the exposure to bacterial infection post-surgery. While this is in line with the national guidelines, there are other cases where the patients may be given the prophylactic antibiotics too soon before the surgical operation, thus reducing the drugs’ ability to prevent infections. The same is the case faced when the or drug intake is prolonged after surgery. These two scenarios are the major concerns of antimicrobial resistance (Bouvet et al., 2014). There is often an effort to provide treatment for bacterial infections among patients prior to surgical operations. However, the impacts of treatment for existing bacterial conditions remains questionable, particularly because the treatment for the bacterial infections has never been primary practice, but rather common practice among most practitioners. The risk of patients acquiring bacterial infections and sepsis after surgical operations is important because of its association with the increasing cost of treatment, the increasing length of hospital stay, and could increase the risk of patients acquiring bacterial infections, sepsis, and infected implants post-operation Why the Problem is Significant According to the research conducted by Hagel & Scheuerlein (2014), acquiring bacterial infections and sepsis post operation would lead to an increase in the cost of healthcare provision by 20% of the original cost of care. This increase translates to an average of $20,000 per patients annually. Surprisingly, this increase in costs is not attributed to administrative costs or time lost 2 PERI-OPERATIVE PROPHYLACTIC TREATMENT during the medical intervention. Clearly, the cost of care increases due to the inherent issues such as increased length of stay in hospital to receive additional treatments. Unfortunately, the patient and the hospital have to incur the extra costs out of pocket and do not qualify for reimbursement from the Centers for Medicaid Services. The increased cost of care is even more worrying, given the fact that data from the findings of Hagel & Scheuerlein (2014) shows that the United States spends over 213 million dollars to acquire bacterial infections and sepsis annually. When patients acquire bacterial infections and sepsis after surgical operations, they will require additional treatments and care, thus increasing their length of stay in hospital and increasing recovery time. This increase in the length of hospital stay may be linked to the risk of complications that comes as a result of the inherent infection such as muscular deconditioning and deep vein thromboses which ultimately reduce the patient’s ability. According to Gifford, Christelis & Cheng (2011), 1.5% of the hospital admission cases reported in 2014 were attributed to acquiring bacterial infections and sepsis which causes an average of additional four days in hospitals. The pre-operative treatment required by the patients could reduce the risk of patients acquiring bacterial infections, sepsis, and infected implants post-operation. This was confirmed by the findings of Enzler, Berbari & Osmon (2011) which noted that bacterial infections and sepsis account for the highest number of infections relative to other infections, however, the development of alternative nursing intervention would lead to the prevention of this issue. Given the related risk of patients acquiring bacterial infections and sepsis after surgical operations, it is essential to explore interventions that would help decrease such incidences. Conclusion and Gap of Knowledge About 95% of healthcare facilities treat their patients for Urinary Tract Infections before they are subjected to the surgical procedure (Bouvet et al., 2014). During this process, the patients receive one intravenous shot of the peri-operative dose as a means of reducing the virulence of the 3 PERI-OPERATIVE PROPHYLACTIC TREATMENT bacterial infection. The prophylactic treatment is given to control the chances of extensive infection on the patient’s post-treatment. However, it has never been effective in all cases, given the fact that the impacts of treatment for existing bacterial conditions remain questionable since it a common practice among most practitioners. Thus, there is a need to initiate a nursing intervention to enhance the use of peri-operative prophylactic treatment to prevent the risk of patients acquiring bacterial infections and sepsis after surgical operations. Therefore, the purpose of this paper is to investigate whether pre-treatment of bacterial infection plays ought to be a necessity for the control of the said bacterial infections post-surgery. PICO Among adult postoperative patients, (P), how does peri-operative prophylactic treatment (I) compared to No prophylactic treatment (C) help prevent the risk of patients acquiring bacterial infections and sepsis after surgical operations (O)? Method A literature search was performed using PubMed, CINAHL, and Medline using the keywords, Peri-Operative Prophylactic, Bacterial Infections, Sepsis, and Surgical Operations. The inclusion criteria used were full-text articles which are peer-reviewed and published in English between 2008-2018 on the topic of Prophylactic in a surgical operation. However, articles that study animal studies, or those that duplicated studies or never focused on the use of Peri-Operative Prophylactic in post-surgical operations were not were excluded from the meta-analysis. Also, the articles that study Peri-Operative Prophylactic in non-hospital settings, articles with lower levels of evidence, and those which relied on a population that does not pertain to the topic were excluded from the study. Based on this criteria, four articles were selected from quasi-experimental studies 4 PERI-OPERATIVE PROPHYLACTIC TREATMENT conducted in various locations namely Enzler, Berbari, & Osmon, (2011), Gifford, Christelis & Cheng, (2011), Hagel & Scheuerlein, (2014), and Chopra, Zhao, Alangaden, Wood & Kaye, (2010). Annotated Bibliography Article 1: Enzler, M. J., Berbari, E., & Osmon, D. R. (2011). Antimicrobial prophylaxis in adults. Mayo Clinic Proceedings, 86(7), 686–701. doi:10.4065/mcp.2011.0012. https://doi.org/10.1093/bjaceaccp/mkr028 Enzler, Berbari & Osmon, (2011) conducted a study to evaluate the effectiveness of antimicrobial prophylaxis in adults who have been subjected to surgical procedure. The setting of the study was the hospital environment where a number of adult patients had been subjected to surgical procedure, there by necessitating the need to prevent surgical site infections. The authors analyzed the proceedings of Mayo Clinic on how antimicrobial prophylaxis has become a common medication as a preventive measure for infectious diseases. The purpose of the study was to examine the level of response of adult patients to antimicrobial prophylaxis post-surgical procedures. The authors were interested in ascertaining the most effective way through which postsurgical infections of the surgical site would be prevented, thereby guaranteeing the safety of the patients. The design in this study was a systematic review of the literature to compare the findings of various studies on the efficacy of antimicrobial prophylaxis among adult patients. A number of literature that have studied the use of preoperative prophylaxis were obtained from various databases searchers, and then their findings analyzed to conclude the outcome of each study in respect to the use of preoperative prophylaxis. The study protocol entails a comparison of the outcome of antimicrobial prophylaxis among adult patients who have undergone surgery against the patient who has not been subjected to any antimicrobial prophylaxis before surgery. 5 PERI-OPERATIVE PROPHYLACTIC TREATMENT Although the authors recommended the use of antimicrobial prophylaxis in various surgical procedures as a measure to prevent site infections after surgery. There is a need to ensure that the optimal antimicrobial agents are used as a prophylaxis post-surgery. The recommended antimicrobial prophylaxis was therefore found to be one which is nontoxic, inexpensive, bactericidal, and active against common disease-causing pathogens with a high risk of causing postoperative surgical site infection. The authors describe how the use of antimicrobial prophylaxis among adult patients post-surgery imply reeducating their risk exposure to bacterial infections due to the wound caused by surgical procedures. As a way of maximizing the effectiveness of this antimicrobial prophylaxis, the perioperative prophylaxis intervention should be conducted intravenously and administered within 30 to 60 minutes before the patient is subjected to a surgical incision. The short duration of the antimicrobial prophylaxis will, therefore, help to reduce the chances of the antimicrobial prophylaxis causing antimicrobial resistance and toxicity in the human body. It also reduces the overall cost of care during surgery. This study faces the limitation of failing to use a concurrent control group in the selection of articles used in the meta-analysis, thus exposing the findings to a wide variation caused by the bias in the selection of articles. As a result, the outcome of the study cannot be explained from one side of the meta-analysis. Article 2: Gifford, C., Christelis, N., & Cheng, A. (2011). Preventing postoperative infection: the anaesthetist’s role. Continuing Education in Anaesthesia, Critical Care & Pain, 11(5), 151-156. Gifford, Christelis & Cheng (2011) conducted a randomised control trial and a systematic review of the anaesthetist’ role in the prevention of postoperative infection. The authors focused on the responsibility of anaesthetists when conducting surgical operations on patients with respect to 6 PERI-OPERATIVE PROPHYLACTIC TREATMENT ensuring that patients outcome does not expose the patients to opportunistic infection. The purpose of the study was to examine the mechanism of impairing critical immune mechanics like neutrophil phagocytosis bacteria during perioperative surgical procedures. The design of the study was a systematic review of previous literature to ascertain the potentially perioperative factors that can be modified through anesthetist control so that they create a positive influence on the possibility of a patient experiencing surgical site infections. Using this design, the authors sort to examine the role of the anesthetist in enacting patient safety against post-surgical wound infections. The study protocol in this article focused on ascertaining the appropriate antibiotics that should be used to achieve effective prophylaxis during surgical operations. Consequently, the authors recommend that appropriate antibiotics be administered on patients before the surgical operation as per the survey of WHO on surgical safety checklists. The finding established that the use of perioperative antibiotic prophylaxis after the surgical operations prevents infections after surgical operations. The authors concluded that the medical professionals bear the ultimate responsibility of considering methods of minimizing hospital-acquired infections through the use of appropriate perioperative prophylaxis to reduce the significant burden that this post-surgical bacterial infection poses to the healthcare. Using this conclusion, the authors established a clinical implication of this study, which can be sued to provide a conceptual framework on how to undertake future research on preoperative prophylaxis to reduce surgical site infections. In particular, the article places the responsibility of identifying the most effective preoperative prophylaxis on anesthetists and are thus required to utilize all available professional judgment to reduce the risk of infection using antibiotic prophylaxis that is appropriately timed and targeted to minimize these risks reduce this risk. One major limitation of this study is that it never took into consideration the presence of a control group in the selection of the articles used in the 7 PERI-OPERATIVE PROPHYLACTIC TREATMENT systematic review of data. Therefore, there was no data from a baseline period which would have served as a foundation of identifying the similarities and differences in the study outcomes. Therefore, there are a number of confounding factors such as the duration it takes to indwelling into the application of prophylaxis antimicrobial to prevent surgical site wound, thereby preventing infection. This limitation caused a huge inconsistency in the data sued by the authors to make a conclusion. Article 3: Hagel, S., & Scheuerlein, H. (2014). Perioperative Antibiotic Prophylaxis and Antimicrobial Therapy of Intra-Abdominal Infections. Viszeralmedizin, 30(5), 310–316. doi:10.1159/000368582 Hagel, S., & Scheuerlein, H. (2014). Conducted a meta-analysis review of literature on perioperative Antibiotic Prophylaxis and Antimicrobial Therapy of Intra-Abdominal Infections. The purpose of the meta-analysis peer review qualitative study was to ascertain the level of increase in antimicrobial-resistant to first and second-line antibiotics with particular focus on the Gramnegative bacteria. The article also focused on establishing the lack of novel antimicrobial substances which have become a major challenge in the medical intervention and treatment of abdominal infection. The design was a meta-analysis peer review of literature conducted in the previous studies with the hope of ascertaining the similarities and differences in the findings by this literature. As a result, a search in various databases was conducted with the inclusions criteria being 8888. The articles that never met this inclusion criterion were left out of the study. The study protocol in this article focused on ascertaining the efficacy and safety of the perioperative antibiotic prophylaxis during the conduct of a visceral surgery from previous metaanalyses. Consequently, the authors describe a thorough administration of perioperative antibiotic prophylaxis before and after a surgical procedure on a patient to help the patient reduce the chances 8 PERI-OPERATIVE PROPHYLACTIC TREATMENT of bacterial infection. The finding established that the use of perioperative antibiotic prophylaxis after the surgical operations should be stopped since it does not reduce the chances of patients having wound infection. Rather, the use of these antibiotic drugs only leads to an increase in the side effects on the patients, such as developing resistance to the antimicrobial. Further, the article noted that antimicrobial management of severe infection arising after surgical intervention requires a delicate balance to ensure that they get an optimal benefit from the empirical therapy to achieve a positive outcome while at the same time reducing the necessary application of the antimicrobials. The authors carefully demonstrated how antimicrobial prophylaxis could be used to manage surgical wounds to prevent bacterial infections among patients, thereby ensuring that the patients recover effectively and regain good health. The authors concluded that the use of antimicrobial resistance is a serious threat to the life of the patients undergoing surgery and therefore there is a need to shift to the use of antibiotics to prevent the spread of the adverse implications of the antimicrobials including perioperative prophylaxis when treating intra-abdominal infections. This study faces the limitation of relying on the sequential introduction of numerous modes of preventing surgical site wound infection, making it very difficult to establish the level of safety and effectiveness of each the antimicrobial preoperative prophylaxis in preventing bacterial infections among patients. As a result, the limitation makes it difficult to ascertain the correlation between any one intervention and the reduction in n risk exposure to surgical site wound infection. Therefore, this study provides a research gap that can be explored in future studies to ascertain the most effective approach that can be used to achieve a better outcome with preoperative prophylaxis among surgical patients. 9 PERI-OPERATIVE PROPHYLACTIC TREATMENT Article 4: Chopra, T., Zhao, J. J., Alangaden, G., Wood, M. H., & Kaye, K. S. (2010). Preventing surgical site infections after bariatric surgery: the value of perioperative antibiotic regimens. Expert review of pharmacoeconomics & outcomes research, 10(3), 317–328. doi:10.1586/erp.10.26 Chopra, Zhao, Alangaden, Wood & Kaye (2010) conducted an expert review of pharmacoeconomics & outcomes research study to ascertain the value of perioperative antibiotic regimes when used to prevent surgical site infection after bariatric surgery. The authors reviewed research articles that have studied the use of preoperative prophylaxis in preventing bacterial infections in surgical site wounds after operations. According to the authors, preoperative prophylaxis has become a major intervention measure of preventing surgical site infection, which is experienced after a bariatric surgical procedure and the ensuing SSI prevention. The purpose of the study was two-fold: to define different types of SSIs which may be encountered post-bariatric surgery and to conduct a meta-analysis of the present literature on the significant aspects of SSI prevention as well as the appropriate application of surgical antimicrobial prophylaxis during a bariatric surgical procedure. The authors reviewed a case involving the administration of an antibiotic prophylaxis piperacillin/tazobactam dosed at 3.375 g in a 4-hour interval in an obese patient (BMI: 50). The focus was to identify the obesity patients who had undergone bariatric surgery and faced the danger of getting surgical site infections due to the surgical wound inflicted on their abdomen. The protocol of the study was the use of perioperative regimes to ascertain the value of antimicrobial prophylaxis to prevent surgical site infections. The design used in this article was a meta-analysis review of previous literature that has researched in this filed to ascertain whether the use of prophylaxis among surgical patient had a significant implication in the efforts toward 10 PERI-OPERATIVE PROPHYLACTIC TREATMENT reducing the risks exposure to surgical site infections attributed to the wounds inflicted to the patient during surgery. The findings noted that such intervention leads to an increased value and a reduced level of concentration of peak serum of the antibiotic in the patients. Conversely, the authors concluded that the antimicrobial activity of prophylaxis among morbidly obese patients could be optimized through alteration of the dose regimens. The article, therefore, notes that despite the benefits attributed to bariatric surgery, the postoperative complications arising from the use of antimicrobials have a server implication patient mortality. The lack of statistical significance in this study was partly attributed to the limitation of lack of concurrence in the meta-analysis of the articles that were sampled for the purpose of this study. As a result, it became very difficult for the study to substantiate the differences between the various preoperative prophylaxes interventions used to prevent the surgical site infection among patients. 11 PERI-OPERATIVE PROPHYLACTIC TREATMENT References Chopra, T., Zhao, J. J., Alangaden, G., Wood, M. H., & Kaye, K. S. (2010). Preventing surgical site infections after bariatric surgery: the value of perioperative antibiotic regimens. Expert review of pharmacoeconomics & outcomes research, 10(3), 317–328. doi:10.1586/erp.10.26 Enzler, M. J., Berbari, E., & Osmon, D. R. (2011). Antimicrobial prophylaxis in adults. Mayo Clinic Proceedings, 86(7), 686–701. doi:10.4065/mcp.2011.0012. https://doi.org/10.1093/bjaceaccp/mkr028 Gifford, C., Christelis, N., & Cheng, A. (2011). Preventing postoperative infection: the anesthetist’s role. Continuing Education in Anaesthesia, Critical Care & Pain, 11(5), 151-156. Hagel, S., & Scheuerlein, H. (2014). Perioperative Antibiotic Prophylaxis and Antimicrobial Therapy of Intra-Abdominal Infections. Viszeralmedizin, 30(5), 310–316. doi:10.1159/000368582 12
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writing assignment, transformational leadership theory

writing assignment, transformational leadership theory

Running Head: LEADERSHIP THEORY Leadership Theory name college 2 Abstract Throughout the journey of this leadership course I have become drawn to the concept of transformational leadership. Transformational leadership is a model that provides an approach to foster organization and personal change (Ross, Fitzpatrick, Click, Krouse & Clavelle, 2014). Great transformational leaders can transform the culture of an organization, make change happen

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quickly, help an organization reboot itself (Longenecker, 2014) and inspire people to excel and perform at the highest level they are able. I have formulated my ideas regarding leadership theory into five simple components, the leadership ABCs. (A) Adopt a Shared Vision Determine the mission of the organization and get others excited about that mission. Create focus and a clear sense of purpose for the team, regardless of their level in the company (Longenecker, 2014). Great leaders will use this mission and sense of purpose as a driving influence on all future decisions and activities (Longenecker, 2014). Imagine possibilities and achievements and inspire others to do the same. (B) Be a Role Model Clarify your personal values and model the way by setting examples and align your actions with the shared values of the team (Ross et al., 2014). Be an authentic leader, in order to inspire others to do great things you must first do great things yourself. Be a lifelong learner, constantly develop yourself and improve your leadership skills in order to meet the changing demands of the workplace (Longenecker, 2014). It’s important to be worthy of trust and transparent, as the best leaders are trustworthy in demonstrating principled leadership in everything that they do (Longenecker, 2014). 3 LEADERSHIP THEORY (C) Challenge the Status Quo Challenging existing processes is necessary in transformational leadership. Search for opportunities by seeking new ways grow, change and improve. Learn from your mistakes. Take calculated risks and generate small wins, experimentation leads to innovation (Ross et al., 2014). (D) Develop Others The best leaders provide ongoing, balanced and timely feedback to the people that report to them (Longenecker, 2014). Share power and responsibility in order to strengthen members of the team. Enabling others to act and promoting cooperative goals fosters team collaboration. Empowerment is an important component of transformational leadership (Finkelman, 2012). (E) Encourage Excellence Great leaders are quick to offer praise, reward strong performance and celebrate success (Longenecker, 2014). Show appreciation for the efforts of others and recognize individual achievements. Celebrate victories and successes in order to foster a spirit of community. Conclusion The mark of great leader is the ability to develop followers to their full potential. In order to be a successful leader we must be not only the type of leader that people want to follow, but also the type of leader that inspires people to be the best that they can be. 4 5 LEADERSHIP THEORY References Finkelman, A. (2012). Leadership and management for nurses: Core competencies for quality care (2nd ed.). Boston: Pearson. Longenecker, C. (2014). The best practices of great leaders. Industrial Management, 2025. Ross, E., Fitzpatrick, J., Click, E., Krouse, H., & Clavelle, J. (2014). Transformational Leadership Practices of Nurse Leaders in Professional Nursing Associations. JONA: The Journal of Nursing Administration, 44(4), 201-206.
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Academy for Practical Evidence Based Practice Nursing Discussion

Academy for Practical Evidence Based Practice Nursing Discussion

1————Dissemination of EBP and research, such as presenting results at a conference or writing an article for a journal, is an important part of professional practice. Identify one professional journal and one nursing or health care conference where you might present your project. Discuss why each of your choices is the best option for you to disseminate your new knowledge.

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2————Discuss why EBP is an essential component of the practice of a BSN-prepared RN. Identify two ways in which you will continue to integrate evidence into your practice and encourage it within your work environment. What obstacles could challenge this plan, and what steps will you take to minimize their impact?

Answers should reflect obesity among adolescent in the united states, and practicum area of home health agency.

FOR EACH DQ, 250 WORDS OR MORE , 2 OR MORE REFERENCES USING IN-TEXT CITATIONS AND SOURCE REFERENCING IN APA 6TH

Discussion essay

Discussion essay

Chapter 18 Men’s Health Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. Longevity and Mortality in Men     Rates of longevity are increasing for both men and women. Gender disparity for life expectancy and mortality has decreased, but mortality rates for men remain higher than those for women. Factors influencing mortality rates include race or ethnic origin, socioeconomic status, and education. Males continue to be at risk for death resulting from unintentional injury and homicide.

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Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 2 Morbidity in Men’s Health     Men tend to perceive themselves to be in better health than do women. Women are more likely to be ill, whereas men are at greater risk for death. Incidence rate for acute and chronic conditions is higher for women than for men; injuries are higher for men than women. Women have higher morbidity rates than men, but men have higher morbidity and mortality rates for conditions that are the leading causes of death. . Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 3 Precursors of Death Frequently NOT Addressed by the Present Health Care System           Heart disease and stroke Hypercholesterolemia Hypertension Diabetes mellitus Obesity Type A personality Family history Lack of exercise Cigarette smoking Cancer          Sunlight Radiation Occupational hazards Water pollution Air pollution Dietary patterns Alcohol Heredity Certain medical conditions Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 4 Men’s Use of Medical Care    Men do not engage in health protective behaviors at frequently as women. Most men do not have routine check-ups, including screenings. Men seek ambulatory care less often than women. ➢  Men delay medical treatment → are sicker when they do seek health care → therefore they require more intensive medical care. Men tend to have longer lengths of stay in the hospital than women. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 5 Male-Female Health Paradox Females are sicker, but males die sooner? – Verbrugge and Wingard (1987) Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 6 Male-Female Health Paradox (Cont.)  Biological factors ➢  Genetics, effects of sex hormones, and physiological differences Influenced by genetics, hormones, and environment Socialization ➢ Men enculturate their sons to believe that risking personal injury demonstrates masculinity. ➢ Men are more likely to change health behaviors when supported by female family members. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 7 Male-Female Health Paradox (Cont.)  Orientation toward illness and prevention ➢ Stereotypical view of men as strong and invulnerable is incongruent with health promotion. ➢ Men lack the somatic awareness and are less likely to interpret symptoms as indicators of illness. ➢ Men may have a desire to rationalize symptoms and deny their susceptibility to disease, thus delaying treatment. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 8 Male-Female Health Paradox (Cont.)  Data collection on health behaviors may not be accurate: ➢ Males are less likely than females to participate in the data collection process. ➢ Social pressure for males to be less expressive (suppress their emotions) may help explain gender differences in reporting health behaviors. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 9 Nurse’s Responsibilities with Men’s Health     Use gender-specific interview techniques to obtain the most accurate health history. Be aware of personal gender bias in data collection. Be aware of the accuracy and interpretation of secondary sources of information. Help men learn how to provide support to the caregiver or to develop a caregiver role. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 10 Nurse’s Responsibilities with Men’s Health (Cont.)  Acknowledge that gender-linked behaviors increase risks: ➢ ➢ ➢ Lifestyle factors (e.g., use of tobacco, substance abuse, poor preventive health habits and stress, lack of emotional channels) Men’s unwillingness to seek preventive care Men’s unwillingness to seek health care when a symptom arises Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 11 Barriers to Health Care for Men   Little effort has been made to create a malespecific health care climate Access to care ➢ Focused on maintaining an effective workforce ➢ Financial support for curative—not preventive— care ➢ Reluctance to take time off from work for care  Lack of health promotion ➢ ➢ Disease prevention and health promotion not often reflected in a man’s perception of health Focus on disease cure in the present health care system Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 12 Men’s Health Care Needs    Permission to have concerns about health and talk openly to others about them Support for the consideration of gender role and lifestyle influences on their physical and mental health Attention from professionals regarding factors that may result in illness or influence a man’s expression of illness, including such things as occupational factors, leisure patterns, and interpersonal relationships Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 13 Men’s Health Care Needs (Cont.)    Information about how their bodies function, what is normal, what is abnormal, what action to take, and the role of proper nutrition and exercise Self-care: testicular and genital self-exams Physical exam and history-taking that include sexual and reproductive health and illness across the lifespan Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 14 Men’s Health Care Needs (Cont.)    Treatment for problems of couples, such as interpersonal problems, infertility, family planning, sexual concerns, and STDs Help with fathering (i.e., being included as a parent in child care) Help with fathering as a single parent, particularly with a child of the opposite sex, in addressing the child’s sexual development and concerns Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 15 Men’s Health Care Needs (Cont.)    Recognition that feelings of confusion and uncertainty in a time of rapid social change are normal and that they may mark the onset of healthy adaptation to change Adjustment of the health care system to men’s occupational constraints regarding time and location of health care sources Financial ways to obtain these goals Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 16 Primary Prevention Measures     Provide health education and screening in the workplace Participate in interest groups and research focused on men’s health Encourage interest in physical fitness and lifestyle changes Include the male perception of health in policy formation Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 17 Secondary Prevention Measures   Tailor health care clinics to men’s needs Provide screening services for men ➢ ➢ ➢ ➢ ➢ ➢ ➢ ➢ Dental examination: Yearly Eye examination: Every 3 to 5 years Blood pressure check: Every 2 years Blood cholesterol check for men aged 53 years and older Prostate examination: Every year after age 50; blacks every year after age 40 Colorectal screening: Every 3 to 5 years Tobacco use and cessation information every year One-time screening for abdominal aortic aneurysm for men 65 years old if the male has smoked – The U.S. Preventive Services Task Force (2004) Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 18 Tertiary Prevention Measures  Provide rehabilitation with sex role and lifestyle considerations ➢ Provide counseling on lifestyle, role changes, and job retraining. ➢ Give men permission to express emotions. ➢ Adapt goal setting to meet men’s needs. ➢ Keep time away from work to a minimum.  Develop new concepts of community care ➢ Provide specific services for men; adapt care to meet needs of male population in the community. Copyright © 2015, 2011, 2007, 2001, 1997, 1993 by Saunders, an imprint of Elsevier Inc. 19
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peer responses essay

peer responses essay

1———– The professional journal topic “Preventing and managing catheter-associated urinary tract infections.” Since the Foley catheters were introduced in the 1930s, it has become one of the primary sources of hospital-acquired infections, and long term urinary catheters used in community-based patients account for some 4% of community nurses’ time. This burden is likely to increase given the projected rise in life expectancy and the size of the aging population. This article considers the current literature around indwelling urinary catheterization and its management with a focus on long term catheterization in the community. My choice is the best option for disseminating new knowledge because “the authors discuss contemporary strategies to manage or prevent CAUTI that based on best practice guidelines.” However, it is clear from the dearth of empirical evidence that there is an urgent need to establish constructed research studies to investigate the prevalence of long term urinary catheterization in the community and the prevention and management of CAUTI.

The next topic nursing health conference journal topic is “Reducing catheter-associated urinary tract infections” As this piece states “Catheter-associated urinary tract infections (CAUTIs) are the most frequent type of healthcare-acquired infection, accounting for up to 80% of hospital-acquired infections. CAUTIs can lengthen hospital stays, increase morbidity and mortality, and raise healthcare costs. The Centers for Medicare & Medicaid Services no longer reimburses hospitals for additional costs generated by CAUTIs. My choice is the best option for disseminating new knowledge because this article reports on a pilot study of an evidence-based intervention to reduce CAUTIs.

2————- In order to disseminate evidence-based practice and research on SBIRT (screening, brief intervention, and referral to treatment), this nurse would like to inform other nurses by writing an article for a nursing journal, for example, the American Journal of Nursing (AJN). Sharing evidence-based research can help others improve SBIRT in their practice by sharing workflows and best practices. Nursing journals are read by many nurses online and many receive subscriptions to journals like AJN. In order to disseminate research, the nurse wants to share it with as many nurses as possible, and nurses from different disciplines read nursing journals. The American Journal of Nursing is well-known, peer-reviewed, and discusses the latest information on nursing practice. Sharing information helps improve nursing practice and patient care. SBIRT can be used in any practice and substance abuse impacts many patients, so this topic can benefit any nurse.

According to Christenbery & Latham (2013), “… an abstract, poster, and podium presentation can be used to support the translation of nursing evidence into effective nursing practice” (p. 22). For example, this nurse could share her project at an Indian Health Service (IHS) conference that is dedicated to educating other Native American clinics on best practices for GPRA (Government Performance Results Act). Key leaders of IHS would need to be contacted in order to present at the next IHS conference. Sometimes best practices are shared in a webinar, which can be more cost effective for some clinics because staff do not have to travel. Facilities, who have done well meeting GPRA indicators, can share workflows and best practices with other Indian Health clinics in this way. “Instead of independently exploring evidence, nurse leaders can utilize evidence-based recommendations from clinical practice guidelines and tailor them to the organization, population, or setting” (Cullen, Dawson, Hanrahan, & Dole, 2014, p. 288). Using evidence-based practices that work will save a facility time and money because staff members do not have to do the research, they just need to make a few changes so that the new practice fits into their workflow.

3—-In dissemination of my change project, I will focus on the journal that will reach and target a bigger audience. Pressure of ulcers is easily preventable yet, the problem remains a major concern in healthcare facility. As a result, I opt to use the Nursing Research and Practice Journal. The journal is majorly in used in the publication of the nursing researches as well as practices. Also, this is an open access journal which has a great probability of making the journal available to a large audience addressed in the change project (Nursing Research and Practice, 2019).

Furthermore, publishing my research using this journal is important since the whole columns of the publications in this journal are read by a great percentage of the population. The publications in this journal are not comprehensive in terms of the number of pages which makes them suitable to be read by even those people who are in a hurry. Pressure of ulcers is as result of insufficient information to address the problem, capitalizing on dissemination of information to the general public will increase the likelihood of addressing the patients or patient’s family hence, preventing escalating levels of pressure of ulcers (Cai, Rahman, & Intrator, 2014).

My opted healthcare conference is the World Nursing and Health Care Conference the conference is offered in an international venue and is universally identified as one among the most inventive and knowledge-intensive areas in universe and a top provider of products and solutions in vital segments like ICT, Cleantech, and Life Science (The conference, 2017).

4———–Evidence-based practice (EBP) is the conscientious and judicious use of current best evidence in conjunction with clinical expertise and patient values to guide health care decisions. According to the authors of the book Evidence-based practice in nursing & healthcare, the movement of healthcare organizations to involve nurses in decision-making has prompted employers to seek a larger percentage of employees who have furthered their education and earned a Bachelor of Science in Nursing (BSN) degree. Also, “as healthcare evolves to meet changing market dynamics, evidence-based practice in nursing, which is taught in baccalaureate programs, has become a key component in improving patient care and outcomes” (Melnyk, & Fineout-Overholt, (Eds.), 2014).

Therefore, EBP is an essential component of the practice of a BSN-prepared RN for many reasons among them being a decrease in the cost of healthcare and reduction of medical errors experienced across diverse healthcare facility around the country.

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Barriers

Although EBP is associated with significant clinical practice, there are barriers which hinders its implementation in the healthcare facility. One barrier I have personally noted in the implementation of EBP is the time taken to implement and cause change within the facility. In this case, EBP is time consuming and what is more, there might be less evidence to support the change. This can be a challenge as most of the management might not support the EBP (Hanberg, & Brown, 2016). Lack of management support is a great impediment that can demotivate the nurses to complete EBP. However, involving the management in the EBP implementation process can greatly help in involving them in the change proposal.

 

Tags: nursing

Proper Healthcare Delivery Practices Discusison

Proper Healthcare Delivery Practices Discusison

Remember to provide citations from scholarly sources to support your responses.

1.) The Institute of Medicine report To Err is Human(1999) introduced an era in healthcare increasing scrutiny of the quality and safety of patient care delivery. Over the years since the publication of this and subsequent reports, what do you think are the most important developments that have occurred in our healthcare system to safeguard patients and create a culture of safety as a result of this increased focus.

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2.) Contributors to increased risk for patient errors occurring include, but are not limited to, discontinuity of patient information, information silos, inconsistent staff work patterns, non-acuity based staffing ratios, ineffective or absent policies/ procedures, and lack of teamwork. Discuss how you see these factors and others that may be prevalent in your facility affecting your ability to deliver quality, safe patient care. How are these issues being addressed?

3.) Currently we are working in an environment with multi-generations. What are some issues that you have discovered at work related to misunderstandings between generations and how can we learn from each other in order to improve conditions in the workplace?

NOTE: I work in an operating room as a nurse. This information may help when answering questions. Need at least 2 sources. thank you!!