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24 results on '"Garcia, Kristen M."'

1. A computational study of right ventricular mechanics in a rat model of pulmonary arterial hypertension

Author

Odeigah, Oscar O, Kwan, Ethan D, Garcia, Kristen M, Finsberg, Henrik, Valdez-Jasso, Daniela, and Sundnes, Joakim

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Lung, Cardiovascular, Rare Diseases, Bioengineering, Aetiology, 2.1 Biological and endogenous factors, pulmonary arterial hypertension, right ventricle, cardiac mechanics, finite-element models, gradient-based optimization, data assimilation, Physiology, Medical Physiology, Psychology, Biochemistry and cell biology, Medical physiology
Abstract

Pulmonary arterial hypertension (PAH) presents a significant challenge to right ventricular (RV) function due to progressive pressure overload, necessitating adaptive remodeling in the form of increased wall thickness, enhanced myocardial contractility and stiffness to maintain cardiac performance. However, the impact of these remodeling mechanisms on RV mechanics in not clearly understood. In addition, there is a lack of quantitative understanding of how each mechanism individually influences RV mechanics. Utilizing experimental data from a rat model of PAH at three distinct time points, we developed biventricular finite element models to investigate how RV stress and strain evolved with PAH progression. The finite element models were fitted to hemodynamic and morphological data to represent different disease stages and used to analyze the impact of RV remodeling as well as the altered RV pressure. Furthermore, we performed a number of theoretical simulation studies with different combinations of morphological and physiological remodeling, to assess and quantify their individual impact on overall RV load and function. Our findings revealed a substantial 4-fold increase in RV stiffness and a transient 2-fold rise in contractility, which returned to baseline by week 12. These changes in RV material properties in addition to the 2-fold increase in wall thickness significantly mitigated the increase in wall stress and strain caused by the progressive increase in RV afterload. Despite the PAH-induced cases showing increased wall stress and strain at end-diastole and end-systole compared to the control, our simulations suggest that without the observed remodeling mechanisms, the increase in stress and strain would have been much more pronounced. Our model analysis also indicated that while changes in the RV's material properties-particularly increased RV stiffness - have a notable effect on its mechanics, the primary compensatory factor limiting the stress and strain increase in the early stages of PAH was the significant increase in wall thickness. These findings underscore the importance of RV remodeling in managing the mechanical burden on the right ventricle due to pressure overload.

Published
2024

3. Evaluation of Resources for Physical Activity in the Classroom: A Mixed Methods Pilot Study

Author

Garney, Whitney R., Nelon, Jordan, Esquivel, Christi H., Muraleetharan, Daenuka, Garcia, Kristen M., and Lautner, Shelby C.

Abstract

In 2007 the Oregon Legislature passed a policy requiring students receive a minimum weekly amount of physical activity in school: 150 minutes for elementary and 225 minutes for middle school students. However, no implementation guidance for teachers or school districts were included in the policy. This pilot study examines the differences between teachers using a single paid curriculum versus various free or readily available resources to implement physical activity. Fifteen elementary-level classroom teachers (8 intervention, 7 control) engaged in the study. Intervention teachers received access to Focused Fitness Curriculum; control teachers used already available resources, representing treatment as usual. Researchers administered teacher surveys, classroom activity logs, classroom observations, and teacher interviews to look at activities conducted, time in physical activity, and teacher perceptions. The average duration of physical activity was almost double in the control group compared to the intervention group. Additionally, the control group maintained small increases in activity level throughout the semester, while activity levels of the intervention group fell. However, the treatment group had higher average activity levels and student participation. The treatment group, using the paid curriculum, was not better than the control group. Both groups saw positive outcomes of students engaging in physical activity. Rather than one set curriculum, the more important factors are providing support and flexibility for implementation.

Published
2019

5. Tailoring Workplace Training to Generational Preferences

Author

Berge, Zane L., Garcia, Kristen M., and Graham, Michelle A.

Abstract

Given the array of generations in the workplace and the variety of learning theories and technological exposure across those generations, many instructional design professionals argue that training should be tailored to these differences. We were skeptical of this assertion and sought to explore evidence for improved effectiveness in tailoring training based on generational differences. Through a review of literature, we explored the variables creating differences across generations, including learning preferences, teaching methods, learning theories, technology, and motivation. We considered the impact of teaching methodologies during learners' formative years on their preferences for learning as adults. We found a lack of substantive evidence that generational differences supported the assertion that adapted training was necessary. The conclusion is that, while it is always important to conduct an audience analysis and to be familiar with the needs of learners for learning events, tailoring training specifically based on generation does not justify the investment of time and resources to improve the effectiveness of training.

Published
2022

9. Implementation of Policy, Systems, and Environmental Community-Based Interventions for Cardiovascular Health through a National Not-for-Profit: A Multiple Case Study

Author

Garney, Whitney R., Szucs, Leigh E., Primm, Kristin, King Hahn, Laura, Garcia, Kristen M., Martin, Emily, and McLeroy, Kenneth

Abstract

Introduction: In 2014, the Centers for Disease Control and Prevention funded the American Heart Association to implement policy, systems, and environment-focused strategies targeting access to healthy food and beverages, physical activity, and smoke-free environments. Method: To understand factors affecting implementation and variations in success across sites, evaluators conducted a multiple case study. Based on past literature, community sites were categorized as capacity-building or implementation-ready, for comparison. A sample of six communities were selected using a systematic selection tool. Through site visits, evaluators conducted interviews with program staff and community partners and assessed action plans. Results: Evaluators identified important implications for nationally coordinated community-based prevention programming. Differences in implementation varied by the communities' readiness, with the most notable differences in how they planned activities and defined success. Existing partner relationships (or lack thereof) played a significant role, regardless of the American Heart Association's existing presence within the communities, in the progression of initiatives and the differences observed among phases. Last, goals in capacity-building sites were tied to organizational goals while goals in implementation-ready sites were more incremental with increased community influence and buy-in. Discussion: Using national organizations as a mechanism to carry out large-scale community-based prevention work is a viable option that provides coordinated, wide-scale implementation without sacrificing a community's priorities or input. In funding future initiatives, the presence of relationships and the time needed to cultivate such relationships should be accounted for in the planning and implementation processes, as well as both local and national expectations.

Published
2018
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13. A computational study of right ventricular mechanics in a rat model of pulmonary arterial hypertension.

Author

Odeigah, Oscar O., Kwan, Ethan D., Garcia, Kristen M., Finsberg, Henrik, Valdez-Jasso, Daniela, and Sundnes, Joakim

Subjects
PULMONARY arterial hypertension, ANIMAL disease models, FINITE element method, PULMONARY hypertension
Abstract

Pulmonary arterial hypertension (PAH) presents a significant challenge to right ventricular (RV) function due to progressive pressure overload, necessitating adaptive remodeling in the form of increased wall thickness, enhanced myocardial contractility and stiffness to maintain cardiac performance. However, the impact of these remodeling mechanisms on RV mechanics in not clearly understood. In addition, there is a lack of quantitative understanding of how each mechanism individually influences RV mechanics. Utilizing experimental data from a rat model of PAH at three distinct time points, we developed biventricular finite element models to investigate how RV stress and strain evolved with PAH progression. The finite element models were fitted to hemodynamic and morphological data to represent different disease stages and used to analyze the impact of RV remodeling as well as the altered RV pressure. Furthermore, we performed a number of theoretical simulation studies with different combinations of morphological and physiological remodeling, to assess and quantify their individual impact on overall RV load and function. Our findings revealed a substantial 4-fold increase in RV stiffness and a transient 2- fold rise in contractility, which returned to baseline by week 12. These changes in RV material properties in addition to the 2-fold increase in wall thickness significantly mitigated the increase in wall stress and strain caused by the progressive increase in RV afterload. Despite the PAH-induced cases showing increased wall stress and strain at end-diastole and end-systole compared to the control, our simulations suggest that without the observed remodeling mechanisms, the increase in stress and strain would have been much more pronounced. Our model analysis also indicated that while changes in the RV’s material properties–particularly increased RV stiffness - have a notable effect on its mechanics, the primary compensatory factor limiting the stress and strain increase in the early stages of PAH was the significant increase in wall thickness. These findings underscore the importance of RV remodeling in managing the mechanical burden on the right ventricle due to pressure overload. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Tailoring workplace training to generational preferences

Author

Berge Zane L., Garcia Kristen M., and Graham Michelle A.

Subjects
General Earth and Planetary Sciences, General Environmental Science
Abstract

Given the array of generations in the workplace and the variety of learning theories and technological exposure across those generations, many instructional design professionals argue that training should be tailored to these differences. We were skeptical of this assertion and sought to explore evidence for improved effectiveness in tailoring training based on generational differences. Through a review of literature, we explored the variables creating differences across generations, including learning preferences, teaching methods, learning theories, technology, and motivation. We considered the impact of teaching methodologies during learners' formative years on their preferences for learning as adults. We found a lack of substantive evidence that generational differences supported the assertion that adapted training was necessary. The conclusion is that, while it is always important to conduct an audience analysis and to be familiar with the needs of learners for learning events, tailoring training specifically based on generation does not justify the investment of time and resources to improve the effectiveness of training.

Published
2022

21. A program evaluation of the Innovative Teen Pregnancy Prevention Programs (iTP3) Project.

Author

Garcia, Kristen M., Esquivel, Christi H., Garney, Whitney R., Wilson, Kelly L., and Farmer, Jennifer

Subjects
CONTRACEPTION, PREVENTION of sexually transmitted diseases, COVID-19 pandemic, LEADERSHIP, PREVENTION of teenage pregnancy, CULTURE, EVALUATION of human services programs, PSYCHOLOGICAL vulnerability, RESEARCH methodology, INTERVIEWING, CURRICULUM, ADOLESCENT health, HUMAN services programs, THEMATIC analysis
Abstract

Background: Teen pregnancy prevention in the United States has traditionally focused on the development, testing, and subsequent implementation of a set of evidence-based programs (EBPs), recommended nationally. However, these existing EBPs often do not prioritize the most at-risk or vulnerable populations. Methods: The Innovative Teen Pregnancy Prevention Programs (iTP3) project was funded to facilitate the development of new, innovative programs to reach disparate populations. Through a mixed methods design, iTP3 evaluated the process and resulting innovative programs from five iterative cohorts of funded organizations, referred to as Innovators. iTP3 utilized both a traditional funding model with more traditional methods of capacity building assistance, but transitioned over time to a design-focused funding model in which organizations and individuals developed innovative programs through an intensive human centered design process. Results: Evaluation results showed that the resulting portfolio of programs had differences in the types of programs resulting from the differing funding models. Notable differences among programs from the two funding models include program length, along with personnel, time, and resources needed to develop and manage. Conclusion: Both traditional and design funding models led to innovative programs, with notable differences in the development process and resulting programs. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Sex-dependent remodeling of right ventricular function in a rat model of pulmonary arterial hypertension.

Author

Kwan ED, Hardie BA, Garcia KM, Mu H, Wang TM, and Valdez-Jasso D

Subjects
Animals, Female, Male, Sex Factors, Hypertrophy, Right Ventricular physiopathology, Hypertrophy, Right Ventricular etiology, Hypertrophy, Right Ventricular metabolism, Hypertrophy, Right Ventricular pathology, Rats, Ventricular Dysfunction, Right physiopathology, Ventricular Dysfunction, Right metabolism, Ventricular Dysfunction, Right etiology, Pulmonary Artery physiopathology, Pulmonary Artery metabolism, Pulmonary Artery pathology, Models, Cardiovascular, Calcium Signaling, Hypertension, Pulmonary physiopathology, Hypertension, Pulmonary metabolism, Hypertension, Pulmonary etiology, Hemodynamics, Ventricular Function, Right, Ventricular Remodeling, Disease Models, Animal, Rats, Sprague-Dawley, Ovariectomy, Pulmonary Arterial Hypertension physiopathology, Pulmonary Arterial Hypertension metabolism, Pulmonary Arterial Hypertension etiology
Abstract

Right ventricular (RV) function is an important prognostic indicator for pulmonary arterial hypertension (PAH), a vasculopathy that primarily and disproportionally affects women with distinct pre- and postmenopausal clinical outcomes. However, most animal studies have overlooked the impact of sex and ovarian hormones on RV remodeling in PAH. Here, we combined invasive measurements of RV hemodynamics and morphology with computational models of RV biomechanics in sugen-hypoxia (SuHx)-treated male, ovary-intact female, and ovariectomized female rats. Despite similar pressure overload levels, SuHx induced increases in end-diastolic elastance and passive myocardial stiffening, notably in male SuHx animals, corresponding to elevated diastolic intracellular calcium. Increases in end-systolic chamber elastance were largely explained by myocardial hypertrophy in male and ovary-intact female rats, whereas ovariectomized females exhibited contractility recruitment via calcium transient augmentation. Ovary-intact female rats primarily responded with hypertrophy, showing fewer myocardial mechanical alterations and less stiffening. These findings highlight sex-related RV remodeling differences in rats, affecting systolic and diastolic RV function in PAH. NEW & NOTEWORTHY Combining hemodynamic and morphological measurements from male, female, and ovariectomized female pulmonary arterial hypertension (PAH) rats revealed distinct adaptation mechanisms despite similar pressure overload. Males showed the most diastolic stiffening. Ovariectomized females had enhanced myocyte contractility and calcium transient upregulation. Ovary-intact females primarily responded with hypertrophy, experiencing milder passive myocardial stiffening and no changes in myocyte shortening. These findings suggest potential sex-specific pathways in right ventricular (RV) adaptation to PAH, with implications for targeted interventions.

Published
2024
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