HSD 401

In this General Education Building Connections course, you will gain creative confidence and hands-on problem-solving experience. You will work on addressing health seekers’ needs within the healthcare system, which will require you to apply the design thinking process—Notice, Empathize, Define, Ideate, Prototype, Test, and Reflect—to understand and clearly define the real (as opposed to the perceived) need, explore design options/concepts, analyze options, prototype your design, and pitch your design recommendation and implementation plan. Using project-based learning techniques, this experiential learning course will enable you to learn about a subject through the experience of exploring an open-ended, student-driven topic in healthcare delivery and patient-centered service experiences. Appropriate for undergraduate students in any discipline, through enhanced group collaboration, you will build intellectual and practical skills in inquiry and analysis, critical and creative thinking, written and oral communication, teamwork, and problem solving. An Honors section is available for this course.

HSD 501

In this course, you will gain creative confidence and hands-on problem-solving experience. You will work on addressing health seekers’ needs within the healthcare system, which will require you to apply the design thinking process—Notice, Empathize, Define, Ideate, Prototype, Test, and Reflect—to understand and clearly define the real (as opposed to the perceived) need, explore design options/concepts, analyze options, prototype your design, and pitch your design recommendation and implementation plan. Using project-based learning techniques, this experiential learning course will enable you to learn about a subject through the experience of exploring an open-ended, student-driven topic in healthcare delivery and patient-centered service experiences. Appropriate for graduate students in any discipline, through enhanced interdisciplinary group collaboration, you will build intellectual and practical skills in inquiry and analysis, critical and creative thinking, written and oral communication, teamwork, and problem solving.

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In this course, you will work in an interdisciplinary team of your peers to gain hands-on experience developing devices for application in the health sciences. Your team will broadly aim to develop devices to address and improve health seekers’ experiences within the health care system. The course will be organized so that you learn to apply the design thinking process — Notice, Empathize, Define, Ideate, Prototype, Test and Reflect — to understand and clearly define the real need, explore design options/concepts, analyze options, prototype your design, and pitch your design recommendation and implementation plan.

Using project-based learning techniques, this experiential learning course will enable you to learn about a subject through the experience of exploring an open-ended, student-driven topic in health care delivery and patient-centered service experiences. Appropriate for undergraduate and graduate students, through enhanced group collaboration and in a makerspace learning environment, you will build intellectual and practical skills in inquiry and analysis, critical and creative thinking, design and prototyping, written and oral communication, teamwork and problem solving.

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Delivering Health Care Solutions Through Device Design

This course is a studio-based course and takes place in the Health Sciences Design Makerspace. Students will use this site to explore design thinking, rapid prototyping, computer modeling, traditional and digital fabrication and more within their work. This course provides a thorough overview of “making” practices centered around health and design. Students will embark on a confidence-building study of the Makerspace, its constituent technologies, processes, and culture in order to understand and develop healthy making practices. Through practicals and design briefs, students will be challenged to produce meaningful contributions both as individuals and in trans-disciplinary teams. These works will be reviewed in group critiques and personal reflections. This course welcomes all undergraduate and graduate students in any discipline to become healthy making practitioners. An Honors section is available for HSD 420.

This course is studio-based and takes place in the Health Sciences Design Visualization space. Students will use this site to explore design thinking, digital making, computer modeling, rendering, and simulation within their work. This course provides an overview of visualization practices centered around health and design. Students will embark on a confidence-building study of the field of design visualization, its constituent technologies, processes, and culture to understand and develop design visualization practices. Through practicals and design briefs, students will be challenged to produce meaningful contributions both as individuals and in trans-disciplinary teams. These works will be reviewed in group critiques and personal reflections. This course welcomes all undergraduate and graduate students in any discipline to become visualization practitioners.

This course is a studio-based course in which students embark on a semester-long design project. Students may choose to work individually or in a trans-disciplinary team on an applied project that is either sponsored, provided, self-generated or initiated in another course. These projects will use design to address complex challenges in health to produce innovative resolutions. This applied project can take many forms (e.g., a research project, designed object, participatory act, film, visualization, application, designed experience/process, educational campaign or curriculum). The projects should critically consider theoretical, social, political, cultural and ethical issues concerning health and design. Students in the course will participate in critiques throughout the semester with their instructors and peers in the creation of the project. The projects will be documented in a digital portfolio for submission and presented at the end of semester. Students in this course will have access to the Health Sciences Design Makerspace and Design Visualization Studio. This course is required for the Design for Health Innovation Graduate Certificate.

In this introduction to Adobe Illustrator, students explore fundamental vector-based editing and compositing techniques used for visual communication. Students learn to investigate layers and perform global adjustments, local adjustments and other non-destructive editing techniques while creating vector-based illustrations. While learning these skills, students develop a critical eye for analyzing images used to narrate our visual culture.

In this introduction to Adobe Photoshop, students explore fundamental pixel-based editing and compositing techniques used for visual communication. Students learn to investigate layers and perform global adjustments, local adjustments and other non-destructive editing techniques while creating image-based narratives. While learning these skills, students develop a critical eye for analyzing images used to narrate our visual culture.

This course is designed for graduate students and postdoctoral fellows. It provides information and experiences that will aid in successful "survival" during the graduate-student years and those following graduation. Topics include effective speaking and writing, grantspersonship, mentoring, teaching and career options, among others. Discussion of ethical issues and resources is integrated across topics.

In this course, students explore the intersectionality of healthcare, community engagement and the role of a Justice, Equity, Diversity & Inclusion (JEDI) framework in achieving health equity. This course will address the most pressing issues challenging the health of people through building connections and critically analyzing issues of health inequity from the distinct perspectives of healthcare and the lived experiences of the community. The JEDI framework will enable us to see how issues such as racism, environmental degradation and the emergence of novel pathogens are interconnected, and how the ethics of health equity and community-building can help us heal our communities and ourselves using collective action. Upon completion of this course, students will be able to critically analyze issues of health inequity from an interdisciplinary and multifaceted approach while engaging in experiential service-learning projects within the community.

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The MILAGRO (Migration Interprofessional Leading to Action and Growth) Collaborative course will provide students with the opportunity to participate in a collaborative response to address migration in the borderlands of Southern Arizona and Northern Mexico. The course is taught by an interprofessional group of faculty and staff, who represent all four Tucson-based University of Arizona Health Sciences (UAHS) colleges, in partnership with the Casa Alitas Migrant Welcome Center and other community partners. Through community engagement and experiential learning, the course focuses on analyzing the evolving root causes of migration and the relative impact of effective public policy, exploring social determinants of health and the role of volunteers in supporting migrant communities, and developing interprofessional perspectives across health-related disciplines/practices. As part of the learning experience, students volunteer with a local migrant shelter to provide basic services to migrant families.

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This course offers undergraduate and graduate students an in-depth exploration of artificial intelligence (AI) in health care, blending theoretical knowledge with hands-on experience. The course will be held in the university’s state-of-the-art simulation facility, the Arizona Simulation Technology and Education Center (ASTEC), and each class session will have a practicum, hands-on component for immersive learning, ranging from foundational AI principles to its applications in diagnostics, treatment and patient care. Students will gain insights into the transformative role of AI in modern medicine. The overarching objective of the course is to provide students with a comprehensive, working understanding of the principles, applications, challenges and ethical considerations of artificial intelligence in healthcare and help consider how the tools of AI and its methodologies can be used to make health safer, more responsible and more accessible. Students may also get to watch some of the ongoing development of projects with the Artificial Intelligence Division in Simulation, Education and Training housed in the facility.

The goal of any institutions of higher learning is to prepare its students for life. However, most authorities agree that humanity will likely reach an “existential bottleneck” in the next 50 years or less. Preparation for life increasingly means that the individual must develop a solid fund of knowledge as well as survival and creative problem-solving skillsets to adequately prepare themselves, their families and their communities to face the challenges of a human-made or natural disaster and ensure their survival in an increasingly dangerous and unpredictable world. Students will be presented with seminar-style didactic, along with hands-on training using the ASTEC lab for learning wilderness medicine and survival tactics, techniques and equipment. Two optional weekend overnight field trips are tentatively planned that focus on desert bushcraft and primitive survival skills. By the end of the course, students will be asked to show proficiency in any three of the following areas: (1) emergency planning and evacuation; (2) emergency shelter; (3) emergency water preparation, filtration and storage; (4) emergency wilderness medicine; (5) telecoms and signaling in grid collapse; (6) logistics and tactics in survival scenarios; and (7) medical aspects of wilderness emergency medicine.

This global health course and rotation will provide students the opportunity to work in interprofessional teams in partnership with Clinica Integral Almas in Alamos, Mexico, using a telehealth framework. This course will increase knowledge and application of global health concepts, indigenous health practices, the utilization of community health workers (CHWs) in health care delivery, telehealth competencies and rural health promotion. Utilizing telehealth as a means of health care delivery and clinical training, students will interact with and learn from health care providers in Mexico and the United States, while partnering with CHWs in Alamos, Sonora, Mexico to address individual and population health needs in their communities.

International practice provides a framework for a more comprehensive examination of how health and wellness are impacted by global issues such as climate change, violence and migration, and how partnerships between communities in differing countries can increase understanding of common health challenges and lead to innovative solutions. Students, faculty, and staff from the University of Arizona, Southeast Arizona Health Education Center (SEAHEC), Clinica Integral Almas and members of the indigenous communities will work together using a shared decision-making model for health promotion and health care delivery.

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This VIP investigates how extended reality (XR) technologies and experiences can enhance education and research in science, technology, engineering, arts and mathematics (STEAM). Undergraduate students in this VIP course will work on applied XR projects with community partners and stakeholders. These projects will address challenges that face STEAM practitioners that cannot be or have not been resolved by traditional methods of inquiry or technique. Students in this course will employ 3D scanning and capture methods, 3D modeling and texturing, and immersive environments to meet these challenges.

The AI-Driven Healthcare Applications team focuses on developing AI technology that can perform a range of basic tasks, from detection and recognition of medical conditions to more intricate challenges such as segmentation. The team specializes in developing deep learning systems specifically tailored for embedded computer vision and various health care applications.

In this hands-on research and design course, students will collaborate to discover methods of improving patient-provider interactions with artificial intelligence (AI). Students will learn and apply how AI can mediate conversations in health care settings to personalize services, improve the timeliness and effectiveness of provider feedback and improve providers’ metacognitive skills. Coursework will take a design thinking approach and engage theory and concepts from adaptive teaching, machine learning, cognitive architecture, human-computer interactions and mHealth to explore ways to innovate health care in the digital age.

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Students Learn Design Thinking in Unique Research Project

The Vertically Integrated Projects (VIP) Program is a transformative approach to enhancing higher education by engaging undergraduate students in long-term, large-scale, multidisciplinary research project teams that are led by faculty. Students earn academic credits, while faculty benefit from the design/discovery efforts of their teams. These classes are: (1) embedded in faculty mentor’s scholarship and exploration, (2) projects that are long-term and large-scale, continuing for many years, (3) part of the curriculum and graded. Students earn credits toward their degree and can take the course continuously for multiple years. Learning outcomes focus on development of both disciplinary and professional skills. In essence, it is a multi-year, team-based research project where you can grow in your scientific skills, knowledge, and mindset while earning credit. You may sign up for a semester and then opt in to future semesters to continue on the projects. See what we did in the first semester of the course here: https://sites.google.com/view/arizonabrainvip/ 

In the Brain Communication Networks VIP-CURE course (NSCS 397), students apply genetics, basic coding skills, flow cytometry, and protein informatics to predict and then test interactions between cell types in the brain of a simple model organism, Drosophila melanogaster (fruit fly). We will focus on discovering and mapping ligand-receptor pairs in the brain that are relevant for brain function, aging, and/or disease. Each team will develop and then contribute expert advice to assemble a picture of how this inter-cellular communication in the brain occurs. We will be making new scientific discoveries that we will go on to share with the public. You can join the class with one set of skills and learn the others by interacting with other teams of students in the course. Do not be intimidated, this course is for everyone!

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The overall goal of this project is to establish a baseline gut microbiome of various types of shelter animals, and then assess alterations of the gut microbiome due to the presence of different enteric pathogens, different treatments for the enteric pathogens, or other commonly given non-treatment medications like antianxiety medication. Shelter animals often have been living on the streets for long time periods and therefore commonly harbor distinctive veterinary diseases not commonly seen in household pets that will often require unique medications to treat these infections. Furthermore, the kenneling of these animals leads to high levels of anxiety, this is often mitigated with antianxiety or other types of medications.

Working with shelter animals provides a unique opportunity to address our overall goal: understanding the gut microbiome and how infection and medications impacts it allows us to develop methods to promote better health and wellbeing of shelter animals.

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Falls are one of the leading causes of injuries and deaths among older adults in the United States. Falls can have a significant negative impact on a patient’s quality of life. Frequently, victims of a fall injury will develop a fear of falling, which can cause a restriction in everyday life. Estimates for patients who develop fear of falling are as high as 85%. This can also result in impaired functional capacity, decreased cognitive function and depression. Therefore, it is crucial to determine how to best prevent falls. Fall prevention programs aim to reduce this problem, but patients face many barriers when trying to enroll. Therefore, investigation is needed to better understand the specific barriers to enrolling in fall prevention programs.

Social scientists of reproduction are currently studying how “climate anxiety” — or growing concern about climate change’s harmful effects — may contribute to increasingly low fertility rates in many global locations. These studies of reproductive decision-making processes are, however, largely limited to countries with low Income inequality and low ethnic diversity. The CARE VIP foregrounds the perspectives of young BIPOC (Black, Indigenous, and people of color) in the Southwestern U.S. to broaden the scope of research on reproductive decision-making and climate change, both methodologically and theoretically.

Foregrounding the voices of those living in the U.S. Southwest, this project asks how young people in the United States, especially BIPOC, think about reproductive futures at a moment of climate crisis. Moreover, it asks what the climate crisis means to young people in the U.S. considering reproduction? How closely are ideas of climate linked to the natural environment, or is the climate in crisis also perceived as economic, social, and political environments? How do young adults living in the U.S. Southwest, particularly those who are racialized and minoritized, understand and anticipate the future at a moment of potential ecological, institutional, and everyday crises?

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This project is a collaboration between the University of Arizona Food Systems Research Lab and the Pima County Food Alliance. Its goals are to build community relationships, convene expertise and multiple forms of knowledge, and produce evidence-based findings to address these complex challenges. The project also aims to meaningfully bolster ongoing local and regional efforts to advance food production and access, food security, food policy, and food sovereignty in ways that are long-lasting and attentive to issues of equity, justice, and overall well-being. Through surveys, focus groups, interviews, arts-based activities, and community events, the projects provides social and behavioral sciences and economic data to support community-based food initiatives and policy.

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The traditional hearing healthcare pathway can create unintended barriers for individuals with hearing loss. Audiologists rely on third-party manufacturers to supply custom earmolds and hearing aid parts. The advancement of 3D scanning and printing technology, which has been used in the hearing health industry for decades, has made it accessible for local clinical settings. Despite this increase in accessibility, the adoption and implementation of this technology into local clinical practice has been non-existent. The overarching goal of this team is to address this gap and explore the utility of accessible 3D scanners and printers in creating custom earmolds. Specifically, this research will involve comparing the production, physical, objective acoustic and subjective comfort measures between professionally made earmolds and in-house 3D printed earmolds. Additionally, this project aims to help clinical audiologists, students and community stakeholders build capacity for adoption and implementation of 3D printing and scanning tools. This will be achieved through the creation of accessible educational resources and materials.

DISCAPAZ is a multimedia project aimed at centering the voices and narratives of disabled individuals and their families living along the Arizona-Sonoran border. The project also serves as an interdisciplinary, experiential learning program that facilitates authentic engagement with border communities to address community-identified needs and amplify disabled voices in the borderlands through ongoing digital storytelling.

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Melanoma accounts for nearly 10% of all incident cancer cases in Arizona. While UV overexposure is the primary modifiable risk factor, obesity is also associated with increased melanoma risk and worse melanoma outcomes. Melanoma survivors are at an increased risk for second primary colorectal, breast, or prostate cancer diagnosis. Adherence to current diet and physical activity recommendations may alleviate the consequences of cancer treatment and is associated with lower cancer mortality. Current recommendations for melanoma prevention and survivorship include maintaining a healthy weight, being physically active, and eating a healthy diet – yet population adherence remains low. Interventions to promote adherence are essentially non-existent for melanoma survivors and many melanoma survivors do not change their activities after treatment. As such, there is a need for tailored programs targeting synergistic cancer preventive behaviors to objectively measure personal UV exposure and programs to promote healthy lifestyles.                                                                                                         

We suggest developing a program geared towards health and community resilience through community gardening. This VIP program directly looks at the links between health and the urban and natural environments, as we work to improve the quality of life for many Arizonans. Harvest for Health, a mentored gardening program for breast cancer survivors in Alabama demonstrated high acceptability and retention as well as increased vegetable and fruit accessibility and consumption, improved physical health, and enhanced social support. Application of wearable UV sensors to monitor and provide just-in-time feedback of UV exposure may be an effective strategy to reduce sunburns and improve sun-protective behaviors for melanoma survivors in community gardening through Harvest for Health Together Arizona (H4H2-AZ). To our knowledge, this is the first study designed to improve supportive cancer care by integrating melanoma patients with existing community gardening networks and including wearable UV sensors and just-in-time feedback to evaluate impact on cancer preventive health behaviors (including diet, physical activity, energy balance, and UV protection).

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Surgical robotics technology promises more precise, automated, flexible medical care that does not require physical co-presence. Yet this exact promise also produces new dependencies between the medical device industry, physicians, and institutions, and entails challenges to doctors’ professional expertise and to doctor-patient relationships. Therefore, the adoption and use of surgical robotics has the potential to produce better medical care, but may also lead to social disruptions and uncertainties that damage the quality of care. Our objective, as sociologists, is to find out how and when surgical robotics is adopted, and what social conditions and arrangements enable successful adoption. We also seek to understand the similarities and differences between automation in medicine and in other domains of expert work. By investigating these differences, and sociocultural patterns in the adoption and use of surgical robotics in the Israel-U.S. context and beyond, we aim to better understand the transnational and local social determinants of robotics adoption, as well as the potential consequences of adoption for hospitals, health practitioners, and patients.

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The Mobile Health Program (MHP) was established in 1976 as a free, mobile clinic for uninsured and low-income patients in Southern Arizona, staffed by family medicine physicians and residents. Its mission is to provide free healthcare, health promotion and disease prevention to uninsured and underinsured individuals in Southern Arizona. One of its flagship programs is Tucson CARES, a health and wellness program for residents of Tucson’s largest public housing complex, Tucson House. The MHP provides weekly health screenings to these residents, targeting many comorbidities including blood pressure screening, point-of-care testing for cholesterol and glucose and height and weight checks. Importantly, this health screening program not only identifies emerging health needs for individuals but also links those same individuals to needed clinical care. Not much is understood on how the MHP health screenings impact further care received outside the clinic for the residents experiencing significant health issues. The driving question behind our VIP is what is the impact of health screenings as it pertains to further linkages to care for residents of the Tucson House and how is their overall functioning improved by making these linkages?  

This course is focused on applying different types of optical imaging to advance screening, diagnosis and treatment of different diseases, primarily cancer. Students will go about this by conducting rigorous imaging studies of different tissue types and then will conduct advanced image analysis to identify biomarkers. Students may also be involved with designing and assembling imaging devices for clinical application.

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The primary goal of the Orthopaedic Biomaterials and Tissue Engineering Laboratory is development and testing of orthopaedic biomaterials and implantable sensors. One goal of these projects is to produce engineered tissues using 3D printed biomaterials and autologous adipose derived stem cells to regenerate musculoskeletal tissues including bone and cartilage. A second goal is to develop bone bondable sensors that will facilitate measurement of fracture healing, monitor the quality of regenerated tissues, and monitor long-term bone health for assessment of additional fracture risk and efficacy of medications used to reduce fracture risk. The projects the lab works on include a highly collaborative team and utilize numerous techniques to evaluate new biomaterials and sensors. Current collaborators in our team include Drs. Philipp Gutruf, Hannah Budinoff, Douglas Loy, Barrett Potter, and Krishna Muralidharan. Due to the wide-ranging expertise of the team members, we utilize numerous techniques to accomplish our goals, with ultimate testing of new biomaterials occurring in cell culture as well as small and large animal models. Our team necessitates students with an interest in electronics fabrication, computer programming, materials fabrication, materials characterization, computer aided design, additive manufacturing, biomechanics, high-resolution CT imaging, and hard tissue histology.

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The goals of this team are to:

1. Introduce students to aging research with training on public health principles, community engagement tools and methods, and help develop culturally appropriate approaches to increase older and racial/ethnic minority individuals’ participation in brain health research. 
2. Provide students the opportunity to work in the large nationwide program “Precision Aging Network” and to learn how to work with communities for research. 
3. Recruit and train graduate and undergraduate students from Hispanic/Latino or African American/Black racial and ethnic backgrounds in any discipline areas of study to increase research participations of under-served communities.

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The overall goal of our team is to promote quality of life for patients with sleep disorders by improving knowledge in the area of sleep and circadian research so that the knowledge gained can ultimately translate into patient care / improving patient outcomes.

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In this directed research course, students will collaborate on the UA Holodeck, an immersive, interactive learning environment on the third floor of the Health Sciences Library, where students can use virtual reality and other novel technologies to explore a wide range of research questions and engage in worldwide collaboration using virtual environments, telepresence and remote interaction.

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It is now standard practice for patients to receive a summary of their care following visits to doctors. In the trauma setting, patients receive discharge summaries upon completion of their hospital stay. Compliance with post-discharge instructions is important for recovery, but there is debate about the utility of the discharge summary to patients and its impact on outcomes. Studies show that a significant portion of discharged patients experience adverse events, many of which are preventable. Furthermore, it is known that the quality of discharge summaries varies, and some studies attempt to improve discharge protocols via patient feedback. However, no studies exist that describe patient attitudes and behavior regarding their discharge summaries or which factors may impact them. Factors such as the quality of summaries, health literacy, primary spoken language, socioeconomic class, technological literacy, and others may influence how long a patient retains their discharge summary and how often it is referenced for guidance. These factors may have direct impacts on patient outcomes, including recovery, adverse events, and readmittance. Our goal is to identify such factors and describe correlations between use of discharge summaries and patient health outcomes.

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In this course, we will learn how to use social science to create change in our society, right here in the heart of Tucson. Using human-centric design thinking, we will learn about the fields of applied sociology and community development and apply our in-class learning to develop real-world solutions to some of Tucson's most persistent social problems. We will review both the academic and practitioner literature on the processes involved in designing social innovations and use experiential learning to bring about positive social change in our own community.

This course introduces students to the essential methods of visual communication and ordering systems through a series of interrelated exercises. Techniques such as investigative sketching, freehand drawing and digital design communication are considered in relation to their potential to reveal the world around us with a heightened sense of awareness. Issues such as place, material, structure and enclosure will be explored empirically and conceptually at a variety of scales and applications. Importantly, this is an interdisciplinary-based studio; students enrolled in this course will have the ability to engage in a variety of different design strategies.

How can we leverage expressive cultural practices, artistic pathways and creative media as research tools through which to address social, scientific and humanistic issues affecting our communities? How can we use the arts to reimagine research as a co-creative praxis and develop vocabularies through which to pitch research projects and grant proposals that involve collaborative and creative methods and applied outcomes? This graduate proseminar introduces students to approaches, methods, practices and applications of applied intercultural arts research, drawing on readings from applied and audiovisual ethnomusicology, museum education, arts-based and practice-based research, public, activist, creative and visual approaches to ethnography, community-based research methods and more. The course is led by a primary instructor with the assistance of disciplinary experts affiliated with the graduate interdisciplinary program in Applied Intercultural Arts Research.  

The purpose of this course is to help problem solvers improve their “street smarts.” Every individual possesses creative skills of one type or another, and these skills can be sharpened if they are exercised regularly. This course will help you hone your creative skills and apply those skills to solve nearly any problem. Drawing on advanced research on problem-solving techniques in all areas of modern industry, this course presents a comprehensive, systematic problem-solving framework. Through hands-on techniques and exercises drawing on realistic examples, you will learn how to approach an ill-defined problem, identify the real problem, generate and implement the best solution, evaluate what you’ve learned, and build on that knowledge.

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This colloquium introduces students to design in differing scales, media and applications, and to how design thinking and making produce different effects.