Doctor of Nursing Practice (DNP) Final Projects
The Doctor of Nursing Practice Final Projects collection contains the completed works of students from the DNP Program at Arizona State University's College of Nursing and Health Innovation. These projects are the culminating product of the curricula and demonstrate clinical scholarship.
Filtering by
- All Subjects: Health literacy
- All Subjects: Anxiety
Methods: A project was undertaken at an outpatient behavioral setting in urban Arizona to determine the use and effectiveness of a mental health app called insight timer to reduce anxiety symptoms. Adult clients with anxiety symptoms were provided with the insight timer app to use over a period of eight weeks. Anxiety was evaluated with the GAD-7 scale initially and after the eight weeks of app use. Usability and the quality of the app were assessed with an app rating scale at the end of the eight weeks.
Results: Findings of the Wilcoxon Signed Ranks test indicated changes in pre and posttest assessment scores as significant (p = .028), which is a significant reduction in anxiety among seven clients who completed the 8-week intervention. the mean TI score was 15.57 (SD = 4.9), and the mean T2 score was 7.71 (SD = 5.7). Besides, Cohen's effect size value (d = 1.465) suggested large clinical significance for GAD7 in pre and posttest.
Discussion: Evidence suggests that the use of an evidence-based app can effectively reduce anxiety symptoms and improve the quality of life. The use of mental health apps like insight timer could reduce health care costs associated with unnecessary hospital admissions as well as re-hospitalizations. The routine use of apps such as the insight timer may also be beneficial to all the clients who have anxiety symptoms in outpatient as well as inpatient settings.
Design: Using an established program for health literacy education, a Doctor of Nursing Practice project was implemented. The effect the program had on increasing the health literacy of participants over a period of 4 weeks was examined. The predominately, Latina participants received three hours of instruction based upon the health literacy book “What to do When Your Child Gets Sick”.
Setting and Subjects: The educational program took place in a large, urban county in the Southwestern United States with 24 parents of preschool age children in Head Start.
Intervention: The educational program contained three hours of classroom instruction utilizing PowerPoint® presentation, demonstration, and teach-back techniques on how to care for a child’s healthcare needs.
Measures and Analysis: Pre-, post- and telephone surveys were used to assess the impact of the health literacy educational program. Wilcoxon and Freidman tests were used to interpret the results.
Results: Despite no significant increases in health literacy post implementation, participants’ remarked that they felt the class was helpful and wanted to share the information with friends and family. They appreciated the program and wanted more educational opportunities.
Conclusion: Advanced practice nurses must acquire understanding, cultural sensitivity, and assess the needs of the community when implementing health literacy educational projects.
As the incidence of acute and chronic wound conditions rises and wound dressing protocols become more complex, uninsured patients lacking access to specialty wound care are challenged to manage their own wounds. Understanding multistep dressing change protocols may be inhibited by low health literacy. Low health literacy is associated with reduced disease knowledge and self-care. Little evidence of health literacy effects on wound patients is available nor are literacy-sensitive educational interventions that address wound knowledge and self-care. Improved outcomes occur in all health literacy levels in other diseases with the use of literacy-sensitive educational interventions that incorporate more than one literacy strategy over multiple sessions. To examine the effectiveness of a literacy-sensitive wound education intervention on wound knowledge and self-care, an evidence-based pilot project was conducted in an urban wound clinic.
A convenience sample of 21 patients received a literacy-sensitive wound education intervention consisting of spoken and written communication over several sessions. Instruments measured health literacy level, wound knowledge, dressing performance, and wound healing status. There was a significant increase in wound knowledge scores in all literacy groups from baseline to visit two (p < .01) and four (p < .01). Dressing performance scores remained consistently high through visit four in all literacy levels. All participant’s wounds progressed toward wound healing significantly from baseline to visit two (p < .01) and four (p < .01). Incorporation of a literacy-sensitive education intervention with supportive literacy aids over several sessions supports improved wound knowledge and dressing self-care and can affect healing in patients of all health literacy levels.
Methods: The quality department at a large children’s hospital in the southwestern United States approved the project as a practice change and parent consent was not required. The project design was a randomized controlled group: pretest-posttest design, quality improvement method. Participants were chosen by convenience sample. Required diagnoses were headache or migraine. Each group had 18 participants, for a total of 36 participants. Ages ranged from four to 18 years of age, with legal guardians present for the intervention group only. New and follow-up patients were included in the project. Demographics for each group were statistically similar. Questionnaires were used to assess knowledge pre and post implementation of teach back tool. Self-management was measured by a follow-up phone call after their appointment to inquire regarding implementation of the headache diary. Charts were reviewed for both groups regarding the number and type of phone calls received by the office.
Outcomes: Paired sample t-test was used to evaluate mean differences in knowledge from pre and post questions of teach back tool. Data analysis concluded a statistical increase in knowledge of triggers and prevention techniques. Cohen’s d for triggers was 2.21 and 1.87 for prevention. Self-management of behavior was measured by use of headache diary and determined by a percentage. Sixty-seven individuals started to use the headache diary. Independent t-test was used to compare number of phone calls from each group. Data concluded a decrease in phone calls. However, due to a small sample size, statistical significance could not be established.
Conclusion: Teach back encourages caregiver/patient and provider interaction, which increases health literacy retention and increases self-management behaviors. Future research should focus on patients with headaches with unknown triggers for their headaches.
Background and Significance: Anxiety is a prevalent health problem affecting up to 30% of the general population. Over 95% of radiation oncology patients report anxiety often related to not knowing what to expect during treatments. The current guideline for management of anxiety is the use of benzodiazepines; which can impose a risk to patients. Evidence demonstrates virtual reality videos can be an effective non-pharmacologic approach to reduce anxiety..
Design: Observational cohort evidence based project.
Setting: Outpatient radiation oncology facility in the Southwest United States.
Sample: 40 patients who have not previously undergone radiation therapy, but have been prescribed radiation treatments for malignant or non malignant conditions.
Methods: Patients who had not previously undergone radiation treatments were identified based on chart review and consented for participation in the project. The patient's were assessed for both their general (trait) anxiety and situational (state) anxiety using The State Trait Anxiety inventory (STAI). They were then shown a virtual reality video that walked them through what they would experience during their radiation treatment. The patient's were re-administered the STAI questionnaire following the video to assess any change in anxiety levels.
Variables: Trait and State anxiety scores before and after the virtual reality video intervention.
Findings/Outcomes: A paired t-test was conducted to assess the data. There was a significant difference in the state anxiety scores pre intervention (m = 32.65, SD = 11.47) and post intervention (M = 25.50, SD 8.95), p =< 0.001.
Conclusions: The use of virtual reality videos was an effective non-pharmacological approach to reduce anxiety in patients receiving radiation treatment.
Implications for nursing: The results provide support for the use of a virtual reality intervention as a non-pharmacologic option to reduce anxiety for patients.