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Requirements Through this assignment, the student will: 1. Critique the required article found below and in your own

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words, describe the research question, sample, design of study, data collection method, findings, and limitations of each. (CO 1, CO2,) 2. Summarize the research article and evaluate the significance to nursing. Do not just quote the author’s words. Paraphrase the information. (CO 4, CO5). You are required to use the article below or you will earn a “0” for the assignment. In addition, assignments that do not follow the current guidelines and use the required article will be evaluated for evidence of an academic integrity violation. After the due date, there will be no opportunity for revision or resubmission of assignments that have been uploaded to the submission area. It is your responsibility to submit the correct assignment to the correct submission area. Guidelines to Writing the Paper 1. This assignment is completed as an APA paper. APA resources can be found on the Course Resources Module. 2. Download the required article for analysis: Lesiuk, T. (2015). The effect of mindfulness-based music therapy on attention and mood in women receiving adjuvant chemotherapy for breast cancer: A pilot study. Oncology Nursing Forum, 42(3), 276-282. https://chamberlainuniversity.idm.oclc.org/login?url=http://search.ebscohost.com/login.asp x?direct=true&db=edswsc&AN=000354233000010&site=eds-live&scope=site (Links to an external site.)Links to an external site. (I attached this article). 3. Introduction (one paragraph): The introduction should be interesting and capture the reader’s attention. a. Provide a brief description of the research article to be discussed. b. Discuss the purpose of your paper. The purpose statement of the paper should relate to the research article reviewed and the implications that it has to evidence based nursing practice. c. You will need to summarize and analyze the information from the article in your own words 4. Describe the research question for this study in a paragraph. a. b. c. d. Describe the research in greater detail. Include your observations about this question. Discuss events or trends that could have affected this question. You will need to summarize and analyze the information from the article in your own words 5. Describe the research design of this study, and in your own words discuss the design. a. Discuss the research design of the study. b. Discuss the strengths and weaknesses of the type of design and hypothesize why the author utilized the design as opposed to others. c. You will need to summarize the information from the article in your own words 6. Describe the sample. a. Briefly describe the sample size used for this study b. Make a judgment as to whether the sample size was adequate and defend your answer. c. Describe the number or participants and determine if the number of participants was adequate compared to the research question and the intent of the study. d. Are these numbers adequate? Discuss gaps in that you identified. e. You will need to summarize and analyze the information from the article in your own words 7. Describe the data collection method(s)’ a. b. c. d. Who collected the data? What tools were used? What were the ethical considerations addressed and discuss gaps you identified. You will need to summarize and analyze the information from the article in your own words 8. Describe the limitations of the study. a. b. c. d. Identify the limitations within the study Describe how the limitations could be overcome in subsequent studies Comment on why limitations are important to list and discuss within a study You will need to summarize and analyze the information from the article in your own words 9. Describe the findings reported in the study. a. Describe the findings reported in the study b. Discuss whether the findings of the study answered the research question posed within the study c. Discuss the credibility of the findings d. If the findings do not support the research question posed within the study, what do you believe is the reason? e. You will need to summarize and analyze the information from the article in your own words 10. Summary a. Summarize important points from the body of your paper including the key components of the paper. b. Include a statement about the research question and the findings. c. Discuss the probability of implementation into practice. Based on these findings, is the evidence that you found on your topic strong enough to suggest a change in practice, or an idea for practice? d. End with a concluding statement. 11. Citations and References must be included to support the information within each topic area. Refer to the APA manual, Chapter 7, for examples of proper reference format. In-text citations are to be noted for all information contained in your paper that is not your original idea or thought. Ask yourself, “How do I know this?” and then cite the source. 12. Reference Page: The Reference Page should start on a new page (insert a page break). All references should be cited within the body of the paper as (Author, year) and the full reference should be included in APA format on the reference page. A url link alone is not an adequate reference. See the APA Guidelines in Course Resources for examples of properly formatted references. 13. Submit the completed paper by 11:59 p.m. MT on Sunday at the end of Week 6. **Academic Integrity Reminder** Chamberlain College of Nursing values honesty and integrity. All students should be aware of the Academic Integrity policy and follow it in all discussions and assignments. By submitting this assignment, I pledge on my honor that all content contained is my own original work except as quoted and cited appropriately. I have not received any unauthorized assistance on this assignment. Please see the grading criteria and rubrics on this page. NOTE: Please use your browser’s File setting to save or print this page. Article The Effect of Mindfulness-Based Music Therapy on Attention and Mood in Women Receiving Adjuvant Chemotherapy for Breast Cancer: A Pilot Study Teresa Lesiuk, PhD, MT-BC C ancer treatments, such as chemotherapy and radiation therapy, are thought to damage normal cognitive functioning of women with breast cancer (Reuter-Lorenz & Cimprich, 2013; Von Ah & Tallman, 2014). Mindfulness, a type of contemplative practice, improves cognitive functions, including attention and working memory, in adults (Jha, Krompinger, & Baime, 2007; Jha, Stanley, & Baime, 2010; Tang et al., 2007). Music stimuli are an ideal source of focus for mindfulness practice (Graham, 2010). No study, to date, has used mindfulness-based music therapy (MBMT) to address the attention deficits and symptom distress reported by women who receive chemotherapy treatments. This pilot study explores the efficacy of MBMT to reduce attention problems and mood distress experienced by women receiving adjuvant chemotherapy for breast cancer. Neurocognitive deficits in women with breast cancer have been associated with a phenomenon referred to as “chemobrain” (Hurria, Somlo, & Ahles, 2007; ReuterLorenz & Cimprich, 2013). Chemotherapy treatments are reported to negatively affect domains of attention, working memory, and several psychomotor abilities (Correa & Ahles, 2008; Hurria et al., 2007; McDonald & Saykin, 2011). A meta-analysis that evaluated the effects of chemotherapy on women with breast cancer revealed significantly lower cognitive ability for executive function, information processing speed, verbal memory, and visual memory as compared to normative data (ReuterLorenz & Cimprich, 2013). Deficits in cognitive function were also found in women who had received adjuvant chemotherapy for breast cancer six months postchemotherapy (Jim et al., 2012). In addition, brain-imaging techniques revealed a reduction of brain gray matter density in patients who received chemotherapy for breast cancer (McDonald & Saykin, 2011). The reduced density was observed bilaterally in the frontal and temporal brain regions one month after chemotherapy treatments relative to baseline density. The changes in gray matter were not found in patients with breast cancer who were not 276 Purpose/Objectives: To explore the efficacy of mindfulnessbased music therapy (MBMT) to improve attention and decrease mood distress experienced by women with breast cancer receiving adjuvant chemotherapy. Design: Quantitative, descriptive, longitudinal approach. Setting: A comprehensive cancer hospital and a university in southern Florida. Sample: 15 women with a diagnosis of breast cancer, stages I–III, receiving adjuvant chemotherapy. Methods: Participants individually received MBMT for one hour per week for four weeks. The sessions consisted of varied music activities accompanied by mindfulness attitudes, or mental strategies that enhance moment-tomoment awareness, and weekly homework. Demographic information was collected at baseline. Main Research Variables: Attention was measured using Conners’ Continuous Performance Test II. Mood was measured using the Profile of Mood States–Brief Form. Narrative comments collected from the homework assignments served to reinforce quantitative data. Findings: Repeated measures analysis of variance showed that attention improved significantly over time. Although all mood states significantly improved from the beginning to the end of each MBMT session, the mood state of fatigue decreased significantly more than the other mood states. Conclusions: MBMT enhances attention and mood, particularly the mood state of fatigue, in women with breast cancer receiving adjuvant chemotherapy. Implications for Nursing: A preferred music listening and mindfulness exercise may be offered to women with breast cancer who experience attention problems and mood distress. Key Words: mindfulness-based music therapy; breast cancer; attention; mood ONF, 42(3), 276–282. doi: 10.1188/15.ONF.276-282 treated with chemotherapy or who were healthy controls. One year later, patients showed partial recovery of gray matter (McDonald & Saykin, 2011). Women with breast cancer receiving adjuvant chemotherapy report frequently having problems with focus, attention, and short-term memory; one typical Vol. 42, No. 3, May 2015 • Oncology Nursing Forum complaint is that they often forget where they put their car keys. Improvement in attention ability is much desired by these patients and their physicians (A. Montero, personal communication, July 13, 2012). Treatment can interfere with the activities of daily living; poor information processing, attention, and working memory also are negatively associated with treatment (Brezden, Phillips, Abdolell, Bunston, & Tannock, 2000; Jansen, Miaskowski, Dodd, Dowling, & Kramer, 2005; Von Ah & Tallman, 2014). In addition, negative mood states (e.g., anxiety, fatigue, depression) are often observed in women with breast cancer (Berger & Higginbotham, 2000). Fatigue is a common complaint and is rated as the longest lasting and most disruptive symptom that results from adjuvant chemotherapy treatment (Berger & Higginbotham, 2000; Carlson et al., 2004, 2013). These areas of concern for patients and healthcare providers require intervention, and one noninvasive approach may be offered by mindfulness: MBMT. Mindfulness Mindfulness is a contemplative practice of being fully aware of what is occurring in the present moment (Bishop et al., 2004; Brotto, 2013). It involves paying attention to an item, event, or moment without overanalyzing, evaluating, or judging. The practice of mindfulness can help a person not to worry about the past or the future, as well as to move out of automatic pilot responses (Brown & Ryan, 2003; Kabat-Zinn, 1990; Williams, Teasdale, Segal, & Kabat-Zinn, 2007). Sometimes referred to as the third wave of psychology, mindfulness is useful as an approach for increasing awareness and responding skillfully to mental processes that contribute to emotional distress and maladaptive behavior (Bishop et al., 2004). Mindfulness involves being aware of and attentive to the form of thoughts rather than the content of thoughts. Whereas cognitive behavior therapy emphasizes addressing the content of distressing thoughts and reframing them, mindfulness entails being aware of having those types of thoughts, feelings, and body sensations. This sort of functioning is referred to as prereflexive because it acts on, not within, thought, feeling, and other forms of consciousness (Brown & Ryan, 2003). Cognitive mechanisms have been reported as significantly improving with the practice of mindfulness (Zeidan, Johnson, Diamond, David, & Goolkasian, 2010), even when practiced in the short term (Tang et al., 2007). Benefits of mindfulness practice include increased focus and self-regulation (Baer, 2003), as well as increased attention and working memory (Chiesa, Calati, & Serretti, 2011; Jha et al., 2007, 2010). Significant improvements in mood and sleep (Carlson & Garland, 2005; Carlson et al., 2013) and increased well-being (Brown & Ryan, 2003) were reported by women with breast cancer who Oncology Nursing Forum • Vol. 42, No. 3, May 2015 participated in a mindfulness-based stress reduction (MBSR) program. In a randomized, wait-list controlled study, the mood and symptoms of stress of outpatients with cancer significantly improved after partaking in weekly 1.5-hour MBSR sessions for seven weeks (Speca, Carlson, Goddey, & Angen, 2000). The MBSR program consisted of three components: teaching materials pertaining to relaxation and meditation, experiential practice of meditation in group and home settings, and group work focused on problem solving. The patients had varied cancer diagnoses, stages of illness, and ages; breast cancer constituted the largest subgroup. A significantly reduced mood disturbance was found for the Profile of Mood States–Brief Form (POMS-BF) subscales of anxiety, depression, anger, and confusion (McNair & Heuchert, 2006). A significant increase in vigor was also reported, whereas fatigue was not found to be significantly improved (Speca et al., 2000). Graham (2010) found that music stimuli may serve as an ideal source of focus for mindfulness. Although mindfulness-based art therapy was found to significantly reduce symptom distress in women with cancer (Monti et al., 2006), its efficacy to improve attention was not investigated. The practice of mindfulness and music therapy was presented to conference attendees at the 14th World Congress of Music Therapy (Lesiuk, 2014). However, to the author’s knowledge, no known studies of MBMT examine the effects of cognition in any patient population. This article examines the effect of an MBMT program on attention and mood states in women receiving adjuvant chemotherapy for breast cancer. The findings reported in the current article may contribute to nursing and mindfulness-based practices, as well as to music therapy literature and clinical practice. Methods Study Design and Procedure This study aimed to determine (a) the effect of MBMT on participant attention, as measured by the Conners’ Continuous Performance Test II (CPT-II), version 5, prior to and following the four-week MBMT program (Conners, 2004) and (b) the immediate effect of MBMT on participant mood, as measured by POMS-BF. A descriptive, longitudinal design was used. Demographic information was collected at baseline. Attention was measured by eight subscales and at two time points (once at baseline [Time 1] and again at the completion of the study [Time 2]). Mood was measured using the POMS-BF at the beginning (pre) and end (post) of each weekly one-hour session. Each MBMT weekly session differed by theme. The study received participants research approval from the Sylvester Comprehensive Cancer Center, part of the University of Miami Health System, and the 277 Table 1. Mindfulness-Based Music Therapy Weekly Sessions Session Music Therapy Activity Mindfulness Attitude 1 Focused music listening and writing Nonjudging 2 Novel instruments and familiar songs Beginner’s mind 3 Rhythm imitation, simple instrument playing Suspending judgment 4 Music-assisted relaxation Acceptance and letting go University of Miami, both in Florida. An MBMT program was developed by the author to potentially enhance the attention and mood states of women who received adjuvant chemotherapy for breast cancer. Participants in the MBMT program received individualized one-hour MBMT sessions once a week for four weeks in a comfortable room within the Frost School of Music at the University of Miami. Participants were also assigned 15–20 minutes of daily homework consisting of music listening exercises and written reflections that matched the weekly theme and mindfulness attitude, respectively. Each week, participants were provided with a different music CD created by the author. The POMS-BF, measuring mood state, was administered immediately prior to and following each session. The CPT-II, measuring attention, was administered immediately prior to the first session and following the end of the fourth session. All participants completed the four MBMT sessions. Table 1 shows the various music therapy activities by week and the accompanying four mindfulness attitudes, which are mental strategies that allow individuals to enhance their practice of being in the moment. Each session began with an opening exercise using sound and then music as the anchor for attention. The opening exercise, which lasted about five to seven minutes, was developed to introduce focus on sound and music rather than on breath, which is the traditional focus (Graham, 2010). Discussions followed regarding whether participants’ minds wandered or remained on the sound, as well as whether they could simply observe their thoughts, feelings, and body sensations without reacting to them. The full disclosure of the program requires a lengthy description beyond the purpose of the findings reported here. Therefore, MBMT program development, a detailed description of the program, and narrative comments from homework are provided for readers elsewhere (Lesiuk, 2014). Participants Fifteen women with a diagnosis of breast cancer were recruited from the Sylvester Comprehensive Cancer 278 Center. The women traveled to the clinic for their appointments and chemotherapy treatments. All participants spoke English fluently. Criteria for inclusion in the study were a diagnosis of breast cancer (stages I–III) and current adjuvant chemotherapy treatment. Exclusion criteria included any prior cognitive impairment (e.g., head injury, history of psychosis). Women who met the study criteria were identified by the clinic nurse and were provided with information about the MBMT study from the researcher. Session meeting times that were agreeable to each participant were scheduled. Measures Conners’ Continuous Performance Test II: The CPT-II is a 14-minute-long computerized assessment of attention, impulsivity, and vigilance. The CPT-II may be used as a screening tool to monitor the effectiveness of treatment and medication or for research purposes. The CPT-II profiles produced help to identify potential problems of executive function in clinical populations. During administration of the CPT-II, participants press a computer keyboard spacebar as quickly and accurately as possible for every screen display of a letter of the alphabet, except for the letter “X.” Following administration of the CPT-II, a score report in which participant raw scores are converted to t scores is generated. These scores may be compared to those of individuals in the normative group of the same gender and age range. For the purpose of this study, CPT-II scores specifically related to the measure of attention were analyzed. For example, a t score of omissions indicates failing to respond to the target alphabet letters, and a t score of commission errors indicates responses incorrectly given Table 2. Demographic Characteristics (N = 15) Characteristic Education High school Bachelor’s degree Master’s degree Other Ethnicity Caucasian Hispanic African American Asian Stage of breast cancer I II III Treatmenta Adjuvant chemotherapy Surgery Hormone therapy Radiation therapy a n 4 5 3 3 6 6 2 1 2 6 7 15 11 4 4 More than one treatment could be reported. Vol. 42, No. 3, May 2015 • Oncology Nursing Forum Variable Attention Error (attention) Time Error (time) Time × attention Error (time × attention) SS df MS F 928.43 18,226.24 1,267.07 2,651.53 421.7 5,899.67 7 98 1 14 7 98 132.63 185.98 1,267 189.4 60.24 60.2 0.71 – 6.69* – 1 – * p < 0.05 MS—mean square; SS—sum of squares to the nontarget letter, “X.” Several response times are calculated in milliseconds for the remaining measures (i.e., hit reaction time, hit reaction time standard error, variability, detectability, reaction interstimulus interval change, and standard error by interstimulus interval). All of these scores constitute a measure of attention for each participant. Detailed explanations of the response times are provided by Conners (2004). CPT-II measures, when combined into indices for neurologic assessment, have a reliability coefficient of 0.92 (Conners, 2004). Profile of Mood States–Brief Form: POMS-BF consists of 30 items regarding how an individual feels at the time of testing. This mood scale is efficient at differentiating the effects of experimental manipulations of mood in patients with cancer (Andersen et al., 2007). The brief version was developed in 1989 for the purpose of providing a shorter and less time-consuming form to patients in medical settings. For each of the six POMS-BF subscales (i.e., anger-hostility, confusionbewilderment, depression-dejection, fatigue-inertia, tension-anxiety, and vigor-activity), patients respond to items on a five-point Likert-type scale by circling numbers from 0 (not at all) to 4 (extremely). For example, items within the tension-anxiety subscale include “tense, shaky,” whereas items within the vigoractivity subscale include “lively, vigorous.” All internal consistencies of the factors are high, with 0.9 or above (McNair & Heuchert, 2006). Relatively lower stability coefficients are expected for the POMS-BF scale; individuals’ state moods fluctuate because of situational factors in the time they are captured. Data Analysis Data were analyzed using SPSS®, version 22, and all statistical assumptions were met. A repeated measures analysis of variance (ANOVA) was used for analysis of the effect of MBMT on participant attention over time. A repeated measures ANOVA was used for analysis of the effect of MBMT on participant mood from each of the four weekly pre- and postsessions. All 15 participants completed the four sessions. Participants were not required to log homework time. However, participants Oncology Nursing Forum • Vol. 42, No. 3, May 2015 were asked at the end of the study how much time, on average, they had spent on homework per week; time spent ranged from 30 minutes to seven hours. Missing items found infrequently on the POMS-BF scales were averaged with similar subscale item responses prior to data entry. Results Participants The mean age of the 15 participants was 52.6 years (SD = 11.3, range = 27–70 years). All participants were receiving adjuvant chemotherapy while enrolled in the MBMT study. Most participants received chemotherapy every three weeks for six cycles. Participants had, on average, 1.9 years (SD = 3.25, range = 0–10 years) of music training. Two of the women were involved in active music making (e.g., singing in a choir), and five had some previous experience with meditation (see Table 2). Attention A repeated measures ANOVA revealed that the twoway interaction of time with attention is not significant (see Table 3). However, the main effect of time is statistically significant (F [1, 14] = 6.69, p = 0.022). The attention t score at Time 1 is 51.54 (SE = 1.76) and 46.94 (SE = 0.87) 55 52.5 t Score Table 3. Repeated Measures Analysis of Variance of Attention and Time 50 47.5 45 42.5 2 1 Time Commissions Detectability Hit reaction time Hit reaction time standard error Omissions Reaction interstimulus interval change Standard error by interstimulus change Variability Figure 1. Conners’ Continuous Performance Test II of Attention Mean Scores at Baseline (Time 1) and Following All Sessions (Time 2) 279 ed that fatigue decreased significantly more than the other negative mood states. The mean of the fatigueinertia subscale pretest was 6.13, and the post-test mean was 1.43, with the largest subscale difference score being 4.7 (p < 0.001). A follow-up analysis using Bonferroni correction to control for overall alpha level shows significant mean differences between pretest and post-test for each POMS-BF subscale (see Table 4). These improvements in mood state indicate a relevant change in symptom distress of the women. 10 t Score 8 6 4 2 0 Pretest Post-Test Time Anger-hostility Confusion-bewilderment Depression-dejection Fatigue-inertia Tension-anxiety Vigor-activity Figure 2. Profile of Mood States–Brief Form Mean Scores Before and After All Sessions at Time 2. The significantly lower score at Time 2 indicates an improvement in attention over time. Figure 1 illustrates the attention measure over time. Mood Distress Discussion This pilot study found that the MBMT program significantly improved attention over time. This significant improvement in attention over time reinforces the findings posited by Chiesa et al. (2011) and Jha et al. (2007) that mindfulness-based interventions significantly improve attention. In addition, music stimuli appear to be an excellent way to capture attention for passive listening (Huron, 1992) and active music making (Gardiner, 2005). The results of this pilot study also determined that MBMT significantly reduced negative mood states in women with breast cancer who were receiving adjuvant chemotherapy. Specifically, the MBMT intervention significantly reduced states of tension, depression, anger, fatigue, and confusion in women with breast cancer, and it significantly improved their levels of vigor and activity. Statements made by the women during the MBMT corroborate the quantitative findings regarding mood states. For example, some women reported feeling more relaxed and less stressed, as well as being able to sleep better. The problem of fatigue frequently reported by women receiving adjuvant chemotherapy treatment for breast cancer (Berger & Higginbotham, 2000) showed the greatest decrease A repeated measures ANOVA revealed that the change in mood from the beginning to the end of each session did not vary by the type or the theme of the session for each subscale. However, the change in mood from the beginning to the end of each session differed by subscale across all sessions (F [5, 65] = 20.83, p < 0.001). Although a statistically significant reduction in mood disturbance from the beginning to the end of the MBMT ses- Table 4. Profile of Mood States–Brief Form Subscale Means and Mean sions was observed, the Differences From Pre- to Postsession magnitude of the change Pre Post was not the same across — — — Subscale X SD X diff SE X SD all mood states. Figure 2 illustrates Anger-hostility 2.8 2.53 2.75 0.65** 0.05 0.14 the overall mean of the Confusion-bewilderment 4.28 3.13 2.35 0.73* 1.93 0.78 POMS-BF subscales at Depression-dejection 2.28 2.09 1.87 0.47** 0.42 1.35 6.13 3.49 4.7 0.65** 1.43 1.6 the beginning (pre) and Fatigue-inertia Tension-anxiety 3.75 2.68 3.35 0.59** 0.4 0.69 end (post) of the MBMT Vigor-activity 6.26 3.09 –3.23 0.71** 9.5 4.79 sessions. All mood states of the participants im- * p < 0.01; ** p < 0.001 — proved from the start to SE—standard error; X diff—mean difference the end of all four MBMT Note. The difference scores are calculated by subtracting the total postsession mood scores from the total sessions. Post-hoc pair- presession mood scores. Positive change scores indicate improvement in the negative moods, whereas the negative change score indicates an improvement in the positive mood. wise comparisons reveal 280 Vol. 42, No. 3, May 2015 • Oncology Nursing Forum Knowledge Translation Mindfulness-based music therapy (MBMT) improves attention and mood in women with breast cancer receiving adjuvant chemotherapy. Fatigue is significantly relieved by MBMT in these patients. MBMT can be used by nurses for their patients. following the MBMT sessions. The significant reduction in negative mood states, particularly fatigue, and the marked improvement in vigor confirms the benefits for mood alteration from a MBMT intervention. Speca et al. (2000) did not find improvements in fatigue in the use of an MBSR program for patients with cancer; however, fatigue was reduced significantly with MBMT. Perhaps the MBMT program, with its combined emphasis on enhancing attention and reducing mood distress, is particularly effective for fatigue reduction. Although the development, detailed description, and participant narrative comments of the MBMT program are provided for readers elsewhere (Lesiuk, 2014), the following participant comment, taken from a participant’s homework journal regarding acceptance and letting go, corroborates the finding that negative moods can be altered through MBMT. This week, the music was extremely relaxing and beautiful. . . . My mood, thoughts, and feelings changed. I was apprehensive, nervous, etc. Now, I feel acceptance, relaxed, ready for the approaching surgery—totally with a positive attitude! The current study is limited by a small sample size and the absence of a wait-list control condition. In addition, although chemotherapy treatments were concurrent with the MBMT sessions, they varied in duration prior to the MBMT sessions. For example, some women had completed only one-third or one-half of their treatments when they began the study, whereas others were closer to completing the prescribed cycles of chemotherapy. Future research investigations should account for the length of time and number of cycles of chemotherapy received prior to and during MBMT. Attention and mood responses may be variable based on the length of time on chemotherapy and the number of chemotherapy cycles women had been receiving. Recommendations for a more comprehensive research study beyond this pilot study include use of a larger number of participants and a wait-list control condition. MBMT could also be offered in a small-group format as opposed to only individual sessions. The social connection available in a group setting may further enhance the benefits of MBMT for the women. Measuring the effect of MBMT on fatigue during stages of chemotherapy Oncology Nursing Forum • Vol. 42, No. 3, May 2015 treatment (Berger & Higginbotham, 2000) would elucidate the strength of the MBMT to reduce fatigue. Women with stage IV breast cancer were excluded from participation in the current study, but a study of the effect of MBMT on symptom distress and quality of life for women with stage IV breast cancer is also recommended. Measures of perceived home and worklife stress also could be included to account for MBMT effectiveness when these factors are controlled for. Implications for Nursing Nurses who observe symptom distress and attention problems in women receiving adjuvant chemotherapy for breast cancer may help by facilitating a simple mindfulness-based music technique for their patients. For example, patients can be instructed to bring in their preferred music selections and focus on a particular attribute in the music (e.g., melody, specific instrument). In beginning mindfulness practice, the patient’s attention may naturally drift to thoughts, feelings, or body sensations. However, the patient should be instructed to gently guide her mind back to the particular attribute in the music. The patient should also be told to be aware of any thoughts and to watch them as a bystander would. This mindfulness exercise that involves being with the music in the moment can be practiced at any time. Guided instructions for using preferred music listening to practice mindfulness are provided by Graham (2010) and Goldberg (2014). The music listening and mindfulness practice may not only be employed by patients, but also by nurses who desire to practice mindfulness. A music therapist may provide guidance to nursing staff regarding how to facilitate mindfulness-based music listening with their patients. Nursing administrators interested in providing MBMT for their patients should contact the American Music Therapy Association (www.musictherapy.org) or the author of the current article for assistance with locating music therapy services. Conclusion The unique contribution of music to mindfulness practice in the form of MBMT significantly improved attention and mood states for women receiving adjuvant chemotherapy for breast cancer. The symptom of fatigue, a common complaint of the women, was particularly alleviated by the MBMT treatment. This music-based intervention, although in need of further investigation with a larger sample, is promising for the relief of symptom distress and to allay the attention problems associated with chemobrain. The author gratefully acknowledges Joyce Chavarria, DNP, RN, OCN®, and Olga V. Moreira, MSN, ARNP, for their assistance with patient referrals and program support. 281 Teresa Lesiuk, PhD, MT-BC, is the director of and an associate professor in the music therapy program in the Frost School of Music at the University of Miami in Coral Gables, FL. This study was funded, in part, by the Provost’s Research Award from the University of Miami. Lesiuk can be reached at tlesiuk@miami.edu, with copy to editor at ONFEditor@ons .org. (Submitted July 2014. Accepted for publication December 12, 2014.) References Andersen, B.L., Farrar, W.B., Golden-Kreutz, D., Emery, C.F., Glaser, R., Crespin, T., & Carson, W.E., III. (2007). Distress reduction from a psychological intervention contributes to improved health for cancer patients. Brain, Behavior, and Immunity, 21, 953–961. doi:10.1016/j.bbi.2007.03.005 Baer, R.A. (2003). Mindfulness training as a clinical intervention: A conceptual and empirical review. Clinical Psychology: Science and Practice, 10, 125–143. doi:10.1093/clipsy.bpg015 Berger, A.M., & Higginbotham, P. (2000). Correlates of fatigue during and following adjuvant breast cancer chemotherapy: A pilot study. Oncology Nursing Forum, 27, 1443–1448. Bishop, S.R., Lau, M., Shapiro, S., Carlson, L., Anderson, N.D., Carmody, J., . . . Devins, G. (2004). Mindfulness: A proposed operational definition. Clinical Psychology: Science and Practice, 11, 230–241. doi:10.1093/clipsy.bph077 Brezden, C.B., Phillips, K.A., Abdolell, M., Bunston, T., & Tannock, I.F. (2000). Cognitive function in breast cancer patients receiving adjuvant chemotherapy. Journal of Clinical Oncology, 18, 2695–2701. Brotto, L.A. (2013). Orienting to the present moment. Sexual and Relationship Therapy, 28, 1–2. doi:10.1080/14681994.2013.784000 Brown, K.W., & Ryan, R.M. (2003). The benefits of being present: Mindfulness and its role in psychological well-being. Journal of Personality and Social Psychology, 84, 822–848. doi:10.1037/0022 -3514.84.4.822 Carlson, L.E., Angen, M., Cullum, J., Goodey, E., Koopmans, J., Lamont, L., . . . Bultz, B.D. (2004). High levels of untreated distress and fatigue in cancer patients. British Journal of Cancer, 90, 2297–2304. Carlson, L.E., Doll, R., Stephen, J., Faris, P., Tamagawa, R., Drysdale, E., & Speca, M. (2013). Randomized controlled trial of mindfulness-based cancer recovery versus supportive expressive group therapy for distressed survivors of breast cancer. Journal of Clinical Oncology, 31, 3119–3126. doi:10.1200/JCO.2012.47.5210 Carlson, L.E., & Garland, S.N. (2005). Impact of mindfulness-based stress reduction (MSBR) on sleep, mood, stress and fatigue symptoms in cancer outpatients. International Journal of Behavioral Medicine, 12, 278–285. doi:10.1207/s15327558ijbm1204_9 Chiesa, A., Calati, R., & Serretti, A. (2011). Does mindfulness training improve cognitive abilities? A systematic review of neuropsychological findings. Clinical Psychology Review, 31, 449–464. doi:10.1016/j.cpr.2010.11.003 Conners, C.K. (2004). Conners’ Continuous Performance Test (CPT II) for Windows. North Tonawanda, NY: Multi-Health Systems. Correa, D.D., & Ahles, T.A. (2008). Neurocognitive changes in cancer survivors. Cancer Journal, 14, 396–400. doi:10.1097/PPO .0b013e31818d8769 Gardiner, J.C. (2005). Neurologic music therapy in cognitive rehabilitation. In M.H. Thaut (Ed.), Rhythm, music, and the brain: Scientific foundations and clinical applications (pp. 179–201). New York, NY: Taylor and Francis Group. Goldberg, A. (2014). Preferred music-based mindfulness: A new intervention for stress reduction (Unpublished doctoral dissertation). Sofia University, Palo Alto, CA. Graham, R. (2010). A cognitive-attentional perspective on the psychological benefits of listening. Music and Medicine, 2, 167–173. doi:10.1177/1943862110372522 Huron, D. (1992). The ramp archetype and the maintenance of passive auditory attention. Music Perception: An Interdisciplinary Journal, 10, 83–91. doi:10.2307/40285540 282 Hurria, A., Somlo, G., & Ahles, T. (2007). Renaming “chemobrain.” Cancer Investigation, 25, 373–377. doi:10.1080/07357900701506672 Jansen, C.E., Miaskowski, C., Dodd, M., Dowling, G., & Kramer, J. (2005). A meta-analysis of studies of the effects of cancer chemotherapy on various domains of cognitive function. Cancer, 104, 2222–2233. Jha, A.P., Krompinger, J., & Baime, M.J. (2007). Mindfulness training modifies subsystems of attention. Cognitive, Affective, and Behavioral Neuroscience, 7, 109–119. doi:10.3758/cabn.7.2.109 Jha, A.P., Stanley, E.A., & Baime, M.J. (2010). What does mindfulness training strengthen? Working memory capacity as a functional marker of training success. In R.A. Baer (Ed.), Assessing mindfulness and acceptance processes in clients: Illuminating the theory and process of change (pp. 207–221). Oakland, CA: New Harbinger. Jim, H.S., Phillips, K.M., Chait, S., Faul, L.A., Popa, M.A., Lee, Y.H., . . . Small, B.J. (2012). Meta-analysis of cognitive functioning in breast cancer survivors previously treated with standarddose chemotherapy. Journal of Clinical Oncology, 30, 3578–3587. doi:10.1200/JCO.2011.39.5640 Kabat-Zinn, J. (1990). Full catastrophe living: Using the wisdom of your body and mind to face stress, pain, and illness. New York, NY: Delta. Lesiuk, T. (2014, July). The development of mindfulness-based music therapy (MBMT) program for women with breast cancer. Paper presented at the 14th World Congress of Music Therapy, Krems, Austria. McDonald, B.C., & Saykin, A.J. (2011). Neurocognitive dimensions of breast cancer and its treatment. Neuropsychopharmacology, 36, 355-356. doi:10.1038/npp.2010.142 McNair, D.M., & Heuchert, J.W.P. (2006). POMS: Profile of Mood States technical update. North Tonawanda, NY: Multi-Health Systems. Monti, D.A., Peterson, C., Kunkel, E.J., Hauck, W.W., Pequignot, E., Rhodes, L., & Brainard, G.C. (2006). A randomized, controlled trial of mindfulness-based art therapy (MBAT) for women with cancer. Psycho-Oncology, 15, 363–373. doi:10.1002/pon.988 Reuter-Lorenz, P.A., & Cimprich, B. (2013). Cognitive function and breast cancer: Promise and potential insights from functional brain imaging. Breast Cancer Research and Treatment, 137, 33–43. doi:10.1007/s10549-012-2266-3 Speca, M., Carlson, L., Goddey, E., & Angen, M. (2000). A randomized wait-list controlled trial: The effects of a mindfulness meditation-based stress reduction program on mood and symptoms of stress in cancer outpatients. Psychosomatic Medicine, 62, 613–622. doi:10.1097/00006842-200009000-00004 Tang, Y.Y., Ma, Y., Wang, J., Fan, Y., Feng, S., Lu, Q., . . . Posner, M.I. (2007). Short-term meditation training improves attention and self-regulation. Proceedings of the National Academy of Sciences of the United States of America, 104, 17152–17156. doi:10.1073/pnas .0707678104 Von Ah, D., & Tallman, E.F. (2014). Perceived cognitive function in breast cancer survivors: Evaluating relationships with objective cognitive performance and other symptoms using the functional assessment of cancer therapy-cognitive function instrument. Journal of Pain and Symptom Management. Advance online publication. doi:10.1016/j.jpainsymman.2014.08.012 Williams, M., Teasdale, J., Segal, Z., & Kabat-Zinn, J. (2007). The mindful way through depression: Freeing yourself from chronic unhappiness. New York, NY: Guilford Press. Zeidan, F., Johnson, S.K., Diamond, B.J., David, Z., & Goolkasian, P. (2010). Mindfulness meditation improves cognition: Evidence of brief mental training. Consciousness and Cognition, 19, 597–605. doi:10.1016/j.concog.2010.03.014 Vol. 42, No. 3, May 2015 • Oncology Nursing Forum Copyright of Oncology Nursing Forum is the property of Oncology Nursing Society and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder’s express written permission. However, users may print, download, or email articles for individual use.
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History, Nursing and Medical

History, Nursing and Medical

Week 7 Discussion Posts Please include reference Discussion 1: Week 7: Terrorism in the 21st Century Discuss how

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you see the “war on terrorism” as of this date. Do you think the United States should be engaged in such a war? Give reasons for or against this war and whether or not we are giving up our own principles to wage it. Answer: Discussion 2: Week 7: The Cold War and America How did the Cold War affect the social and political climate in the United States during the 1950s? In particular, how do you explain McCarthyism and the Red Scare? Can you think of any modern parallels to these events, when fear and paranoia threatened basic American liberties? Elaborate. Answer: Discussion 3: Week 7: Applying and Sharing Evidence to Practice. This week’s graded discussion topic relates to the following Course Outcomes (COs). • • • • CO1 Examine the sources of evidence that contribute to professional nursing practice. (PO 7) CO2 Apply research principles to the interpretation of the content of published research studies. (POs 4 and 8) CO4 Evaluate published nursing research for credibility and lab significance related to evidence-based practice. (POs 4 and 8) CO5 Recognize the role of research findings in evidence-based practice. (POs 7 and 8) After the data have been analyzed, conclusions are made regarding what the findings mean. Then, this information must be shared with your healthcare team. 1. Choose one of the articles from the Week 5 RRL assignment, and discuss the findings. Would you apply the evidence found to your practice? Explain your answer. (I attached this article). 2. Translating research into practice is the final and most important step in the research process. Review information you found your nursing clinical issue and explain ways in which you would share the research-based evidence with your peers. Answer: [Downloaded free from http://www.ijpm.info on Friday, March 31, 2017, IP: 202.177.173.189] Original Article Quantitative Balance and Gait Measurement in Patients with Frontotemporal Dementia and Alzheimer Diseases: A Pilot Study Selva Ganapathy Velayutham, Sadanandavalli Retnaswami Chandra1, Srikala Bharath2, Ravi Girikamatha Shankar3 ABSTRACT Introduction: Alzhiemers disease and Frontotemporal dementia are common neurodegenerative dementias with a wide prevalence. Falls are a common cause of morbidity in these patients. Identifying subclinical involvement of these parameters might serve as a tool in differential analysis of these distinct parameters involved in these conditions and also help in planning preventive strategies to prevent falls. Patients and Methods: Eight patients in age and gender matched patients in each group were compared with normal controls. Standardizes methods of gait and balance aseesment were done in all persons. Results: Results revealed subclinical involvement of gait and balancesin all groups specially during divided attention. The parameters were significantly more affected in patients. Patients with AD and FTD had involement of over all ambulation index balance more affected in AD patients FTD patients showed step cycle, stride length abnormalities. Discussion: There is balance and gait involvement in normal ageing as well as patients with AD and FTD. The pattern of involvement in AD correlates with WHERE pathway involvement and FTD with frontal subcortical circuits involvement. Conclusion: Identification the differential patterns of involvement in subclinical stage might help to differentiate normal ageing and the different types of cortical dementias. This could serve as an additional biomarker and also assist in initiating appropriate training methods to prevent future falls. Key words: Alzheimer disease, balance impairment, frontotemporal dementia, gait impairment, posturography INTRODUCTION Alzheimer disease (AD) is a neurodegenerative disorder characterized by progressive loss of recent and episodic memory and other cognitive functions, affects 35 million people worldwide. [1] Early diagnosis is important to initiate early treatment strategies to improve disability adjusted life years Website: This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms. www.ijpm.info For reprints contact: reprints@medknow.com Access this article online Quick Response Code DOI: 10.4103/0253-7176.203132 How to cite this article: Velayutham SG, Chandra SR, Bharath S, Shankar RG. Quantitative balance and gait measurement in patients with frontotemporal dementia and Alzheimer diseases: A pilot study. Indian J Psychol Med 2017;39:176-82. Departments of Neurological Rehabilitation, 1Neurology and 3Biostatistics, National Institute of Mental Health and Neurosciences, Bengaluru, Karnataka, India, 2South Asian Division, Royal College of Psychiatrists, London, UK Address for correspondence: Dr. Sadanandavalli Retnaswami Chandra Faculty Block, Neurocentre, National Institute of Mental Health and Neurosciences, Bengaluru – 560 029, Karnataka, India. E-mail: drchandrasasi@yahoo.com 176 © 2017 Indian Psychiatric Society | Published by Wolters Kluwer – Medknow [Downloaded free from http://www.ijpm.info on Friday, March 31, 2017, IP: 202.177.173.189] Velayutham, et al.: Gait and balance in cortical dementia and reduce caregiver burden. The other type of cortical dementia is frontotemporal dementia (FTD) which manifests little more early and manifests often with neuropsychiatric manifestations. These two conditions are often misdiagnosed as each other or as purely psychiatric illness which delays the diagnosis. Morbidity and mortality are often due to secondary factors than the disease itself. Cortical structures are wired to subcortex by various functional circuits and therefore there is a possibility that subcortical signs which are easier to measure may be involved subclinically and if any differential pattern is observed it might help as an additional biomarker in early specific diagnosis as AD or FTD and also initiate appropriate treatments to delay progression to serious disability. Gait and balance are the product of successful integration of various posture control mechanisms and locomotion. Neurological disorders at any level can compromise the biomechanics of the same as it involves several complex mechanisms. Posture control needs maintaining the center of mass over the BOS all through the gait cycle. Dynamic balance needs cerebellum, vestibular system, and unconscious reactive reflexes such as long loop reflexes. Standing balance needs sensory information with reference to environment generated by vision, proprioception, and vestibular system. Because of the frontal-subcortical circuits breaking down in FTD and WHERE dorsal pathway dysfunction in Ad, both these disorders are likely to have gait and balance-related problems. Older persons with cognitive dysfunction are especially vulnerable for gait and balance problems resulting in repeated falls because of the associated multiaxial “dysfunction involving not only cognition but also, joints, ligaments, tendons, vision, and hearing.” [2] Patients with attention and cognitive disorders are at risk of disequilibrium in this automatic, unconscious act of walking due to inability to concentrate in dual tasking.[3-14] There is evidence for abnormal equilibrium in Ad and motor dysfunction in FTD.[15-17] This can increase morbidity significantly in these patients.[18-22] The changes are expected to be subclinical in the early phase, and hence quantitative measurements will be of great help in understanding the pattern which apart from probably serving as a easily accessible biomarker, might also serve in initiating rehabilitatory tools early in the course of disease. PATIENTS AND METHODS Twenty-four male subjects with 50–70 years of age, 8 in each group of probable bvFTD diagnosed by revised consensus criteria,[23] probable AD, diagnosed by ADs association criteria,[24] and healthy volunteers as controls. The FTD and AD groups were recruited from Outpatient Department of Neurology and Geriatric Clinic, controls from the community. Informed consent was obtained from all and ethical clearance received from the Institute Ethical Committee. Subjects with orthopedic, visual deficit, other neurological conditions, and cardiovascular ailments were excluded. All demographic factors including age, gender, and height, weight are recorded. The balance was measured by Biodex Balance Master Incorp., USA, using dynamic posturography, in single and dual tasks and gait with Biodex Gait Trainer. T h e e q u i p m e n t h a s a p o s t u ro g r a p h y – b a s e d force platform which provides objective balance measurements in two situations, i.e., (1) dynamic balance and (2) limits of stability (LOS). It has a circular platform and a display monitor kept in front of the subject to see and get the feedback about their status of standing. The platform becomes unstable and the subject’s experience wobbling. The change in the center of pressure due to this will be displayed in the monitor as a biofeedback as the cursor moves from the epicenter of the grid. Each subjects “base of support” requirement for the perturbed stand is tested, and subjects are asked to adjust their BOS making the tilted platform to the neutral and stable position. They can utilize the feedback about their stand position from the display monitor and instructed to target at the innermost circle or epicenter of the grid. At the end, BOS is recorded including measurement of the angle of foot deviations and during the process. Dynamic balance – Single task Three trials each of 20 s duration are done. The amount of deviation from original BOS and direction of deviation were recorded without using handrail support. The test results contain overall balance index (OBI), anteroposterior index (API), i.e., amount of front to back sway, mediolateral index (MLI), i.e., side to side sway. Higher the score indicates poorer the balance. Limits of stability – Single task In the second part of balance test, the subjects ability to come back to the original BOS after a self-initiated sway in eight different direction, namely, (1) forward (F), (2) backward, (3) right, (4) left, (5) forward right, (6) forward left, (7) backward right, and (8) backward left was tested. The maximum overall score, individual direction score was 100 with the maximum time of 300 s. Higher the score and shorter the time taken indicates better the balance. Indian Journal of Psychological Medicine | Volume 39 | Issue 2 | March-April 2017 177 [Downloaded free from http://www.ijpm.info on Friday, March 31, 2017, IP: 202.177.173.189] Velayutham, et al.: Gait and balance in cortical dementia Procedure The platform becomes unstable, and the subject sees a square box in the display monitor, the subjects has to shift the body weight toward the direction of the box so that the cursor moves and get inside the box and hold for 2 s. Then move to the direction where the next box appears. The display of the boxes appears in such a way that the subject needs to come back to the first box after completing the individual box in a different direction. The maximum time to complete the task is 300 s. The result generated consists of overall balance, forward, backward, forward right, forward left, backward right, backward left, and time take to complete the test. Dual task In dual task, the subject performs dynamic balance, LOS task along with cognitive task and repeated after a rest period for 2 min from the single task. The cognitive task includes digital subtraction of 3, 2, from 100 in dynamic balance, LOS tasks, respectively.[25,26] The patients are expected to utilize the visual feedback to obtain balance. A safety harness protects the subject from falling. Gait assessment The subjects gait was measured by Biodex Gait Trainer USA Incorp. The persons recruited had to walk for 2 min in a sensor-based treadmill at a comfortable speed. A safety harness was provided to protect the person from falling. Kinematic data includes gait speed, stride and step length, coefficient variation of the steps (CV) were gathered. After a rest period of about 2 min, the test was administered for the second time for a dual task where the subject counted backward from 100 as a cognitive task[27] while walking on a treadmill. The result contains total walking distance, average walking speed, average step cycle, average step length, CV of the right and left leg. Higher the score in gait parameter indicates better gait stability, however, increased coefficient variation of steps indicate poor gait stability. RESULTS The Shapiro–Wilkins test was conducted to test the normality of the parameters. Descriptive analysis was done for age, body mass index, education in years. Within group analysis of single versus dual task was analyzed with paired t-test. One-way ANOVA was conducted to reveal the difference between groups, followed by post hoc test with Bonferroni correction. The mean age of FTD group = 58.37 ± 8.38; AD group = 66.7 ± 5.5; Control group = 59.5 ± 7.03, all the subjects were male (8 in each group), the Hindi Mental Status Examination score of FTD and AD group were significantly lower than the controls [Table 1]. Within group comparison of single versus dual Dynamic balance The OBI and API of the dynamic balance of FTD group and control group significantly differed between single versus dual task. However, AD group had significant difference in mediolateral (MLI) stability index only [Table 2 and MLI score in Figure 1]. Limits of stability All the three group had significant difference in overall LOS score between single vs. dual task however the sub-component of LOS revealed FTD patients had problem balancing on forward lateral direction and control group had problem in forward, left direction whereas the AD group had significant difficulty in backward direction [Table 2 and overall LOS score in Figure 2]. Gait analysis FTD, AD group, performed poorly in dual task gait analysis while the control group showed no significant worsening of gait. Ambulation index (AI) is a cumulative score of overall gait performance which is found to be low on dual task for both dementias [Figure 3]. In addition, FTD group had significant reduction of step cycle, step length especially on the right side [Table 3]. Between group comparisons Dynamic balance – Single task FTD group had a significant worsening of balance in comparison with control group in all subcomponent of dynamic balance, i.e., OBI, API, and MLI. The Table 1: Age, body mass index, HMSE score, education of patients with FTD and AD FTD (n=8) AD (n=8) Control (n=8) P (ANOVA) Age (mean±SD) BMI Education in years HMSE 58.37±8.38 23.26±2.86 9.50±5.21 16.25±7.3 66.7±5.57 20.8±1.63 11.63±5.20 16.88±5.91 59.5±7.03 23.75±3.83 11±3.46 30.8±0.34 NS NS NS 0.000 (
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Nursing and Medical

Nursing and Medical

1.) Week 7: Our Future Leaders This week’s graded discussion topic relates to the following Course Outcome (CO). •

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CO5 Apply improvement methods, based on data from the outcomes of care processes, to design and test changes to continuously improve the quality and safety of healthcare. (PO 8) In Huston’s (2010) brief, but impressive article (required reading this week), the author outlines several leadership competencies that EVERY nurse leader will need for 2020. That year is not too far in the future, is it? 1. Select one of the eight leadership competencies Huston described and relate it to your own leadership of nurses and nursing. This should promote a robust discussion as we come from different clinical and nonclinical perspectives. 2. Discuss how the BSN-prepared nurse can assist a nurse leader in the budgeting process by contributing data readily available to the staff nurse. Huston, C. (2010). What skills will the nurse leaders of 2020 need? (2010). Kai Tiaki Nursing New Zealand, 16(6), 14–15. Retrieved from https://web-b-ebscohost- (I attached this). Answer: 2.) Week 7: Health Federal Bills in Congress This week’s graded discussion topic relates to the following Course Outcome (CO). • CO7 Integrates the professional role of leader, teacher, communicator, and manager of care to plan cost-effective, quality healthcare to consumers in structured and unstructured settings. (PO 7) There is much attention on federal health care policy and law. Health Bills: GovTrack.us provides a list of federal bills that are currently in process in Congressional Committees. Go to https://www.govtrack.us/congress/bills/subjects/health/6130 Choose a health-related federal bill of interest to you. Read through the bill and post a summary in your own words. Include the bill number and name. • • How might this bill impact professional nursing practice standards if passed? If not passed? How might the bill impact your own nursing practice? Answer: EBSCOhost 6/12/18, 7)09 PM Record: 1 Title: Preparing nurse leaders for 2020. Authors: HUSTON, CAROL Source: Journal of Nursing Management. Nov2008, Vol. 16 Issue 8, p905911. 7p. 1 Chart. Document Type: Article Subjects: MEDICAL care NURSING PUBLIC health NURSING education MEDICAL education Author-Supplied Keywords: future leadership leadership succession management nurse leadership competencies year 2020 Abstract: Aim: This article highlights eight leadership competencies likely to be an essential part of the nurse leader’s repertoire in 2020. Background: Planning for the future is difficult, even when environments are relatively static. When environments are dynamic, the challenges multiply exponentially. Unfortunately, few environments have been more unpredictable in the 21st century than health care. The healthcare system is in chaos, as is much of the business world. It is critical then that contemporary nursing and healthcare leaders identify skill sets that will be needed by nurse leaders in 2020 and begin now to create the educational models and management development programs necessary to assure these skills are present. Results: Essential nurse leader competencies for 2020 include: (i) A global perspective or mindset regarding healthcare and professional nursing issues. (ii) Technology skills which facilitate mobility and portability of relationships, interactions, and operational processes. (iii) Expert decision-making skills rooted in empirical science. (iv) The ability to create organization cultures that permeate quality healthcare and patient/worker safety. (v) Understanding and appropriately https://web-a-ebscohost-com.chamberlainuniversity.idm.oclc.org…2540sessionmgr4008%26bdata%3dJnNpdGU9ZWhvc3QtbGl2ZQ%253d%253d Page 1 of 2 EBSCOhost 6/12/18, 7)09 PM intervening in political processes. (vi) Highly developed collaborative and team building skills. (vii) The ability to balance authenticity and performance expectations. (viii) Being able to envision and proactively adapt to a healthcare system characterized by rapid change and chaos. Conclusions: Nursing education programmes and healthcare organizations must be begin now to prepare nurses to be effective leaders in 2020. This will require the formal education and training that are a part of most management development programmes as well as a development of appropriate attitudes through social learning. Proactive succession planning will also be key to having nurse leaders who can respond effectively to the new challenges and opportunities that will be presented to them in 2020. [ABSTRACT FROM AUTHOR] Copyright of Journal of Nursing Management is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder’s express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.) ISSN: 0966-0429 DOI: 10.1111/j.1365-2834.2008.00942.x Accession Number: 35481375 Database: Consumer Health Complete – EBSCOhost https://web-a-ebscohost-com.chamberlainuniversity.idm.oclc.org…2540sessionmgr4008%26bdata%3dJnNpdGU9ZWhvc3QtbGl2ZQ%253d%253d Page 2 of 2
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Nursing and Medical

Nursing and Medical

Week 1: The Value of a Master’s-Prepared Nurse Consider the current healthcare delivery models and practice

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settings. Reflect on how nursing practice is transforming in response to the current demands of the healthcare system and answer one of the following questions: 1. What differentiates the practice of a master’s-prepared nurse compared to that of a baccalaureate-prepared nurse? 2. What is the value of a master’s degree in nursing? 3. What do you consider to be the most essential professional competency for a master’sprepared nurse practicing in the 21st century? Refer to AACN Essentials, CCN Nursing Conceptual Framework and other scholarly sources. Use at least one outside scholarly article to support your position. Provide an example to illustrate an application to professional practice. Answer:
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