MENTORING FEMALE ENGINEERING STUDENTS: A MODEL PROGRAM AT THE UNIVERSITY OF WASHINGTON

There is a culture of disengagement from social consideration in engineering disciplines. This means that first year engineering students, who arrive planning to change the world through engineering, lose this passion as they progress through the engineering curriculum. The community driven technology innovation and investment program described in this paper is an attempt to reverse this trend by fusing community engagement with the normal engineering design process. This approach differs from existing project or trip based approaches – outreach – because the focus is on local communities with which the university team forms a long-term partnership through weekly in-person meetings and community driven problem statements – engagement.

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136. Don’t Sweat the Small Stuff: Solutions for Large-Scale Stewardship Obstacles

Open Forum Infectious Diseases ◽

10.1093/ofid/ofaa439.181 ◽

2020 ◽

Vol 7 (Supplement_1) ◽

pp. S79-S80

Author(s):

Joanne Huang ◽

Zahra Kassamali Escobar ◽

Rupali Jain ◽

Jeannie D Chan ◽

John B Lynch ◽

...

Keyword(s):

Urgent Care ◽

Complex Data ◽

Open Communication ◽

University Of Washington ◽

Data Set ◽

Constructive Feedback ◽

Diagnostic Coding ◽

Icd 10 ◽

Tract Infections ◽

The University

Abstract Background In an effort to support stewardship endeavors, the MITIGATE (a Multifaceted Intervention to Improve Prescribing for Acute Respiratory Infection for Adult and Children in Emergency Department and Urgent Care Settings) Toolkit was published in 2018, aiming to reduce unnecessary antibiotics for viral respiratory tract infections (RTIs). At the University of Washington, we have incorporated strategies from this toolkit at our urgent care clinics. This study aims to address solutions to some of the challenges we experienced. Challenges and Solutions Methods This was a retrospective observational study conducted at Valley Medical Center (Sept 2019-Mar 2020) and the University of Washington (Jan 2019-Feb 2020) urgent care clinics. Patients were identified through ICD-10 diagnosis codes included in the MITIGATE toolkit. The primary outcome was identifying challenges and solutions developed during this process. Results We encountered five challenges during our roll-out of MITIGATE. First, using both ICD-9 and ICD-10 codes can lead to inaccurate data collection. Second, technical support for coding a complex data set is essential and should be accounted for prior to beginning stewardship interventions of this scale. Third, unintentional incorrect diagnosis selection was common and may require reeducation of prescribers on proper selection. Fourth, focusing on singular issues rather than multiple outcomes is more feasible and can offer several opportunities for stewardship interventions. Lastly, changing prescribing behavior can cause unintended tension during implementation. Modifying benchmarks measured, allowing for bi-directional feedback, and identifying provider champions can help maintain open communication. Conclusion Resources such as the MITIGATE toolkit are helpful to implement standardized data driven stewardship interventions. We have experienced some challenges including a complex data build, errors with diagnostic coding, providing constructive feedback while maintaining positive stewardship relationships, and choosing feasible outcomes to measure. We present solutions to these challenges with the aim to provide guidance to those who are considering using this toolkit for outpatient stewardship interventions. Disclosures All Authors: No reported disclosures

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Dating at the University of Washington

Marriage and Family Living ◽

10.2307/347293 ◽

1947 ◽

Vol 9 (2) ◽

pp. 30 ◽

Cited By ~ 2

Author(s):

Rayanne D. Cupps ◽

Norman S. Hayner

Keyword(s):

University Of Washington ◽

The University

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Finding the path of least resistance: Locally adapting the MITIGATE toolkit in emergency departments and urgent care centers

Infection Control and Hospital Epidemiology ◽

10.1017/ice.2020.1394 ◽

2021 ◽

pp. 1-3

Author(s):

Joanne Huang ◽

Zahra Kassamali Escobar ◽

Todd S. Bouchard ◽

Jose Mari G. Lansang ◽

Rupali Jain ◽

...

Keyword(s):

Primary Care ◽

Emergency Department ◽

Antimicrobial Stewardship ◽

Emergency Departments ◽

Urgent Care ◽

Complex Data ◽

University Of Washington ◽

Primary Care Clinics ◽

Urgent Care Centers ◽

The University

Abstract The MITIGATE toolkit was developed to assist urgent care and emergency departments in the development of antimicrobial stewardship programs. At the University of Washington, we adopted the MITIGATE toolkit in 10 urgent care centers, 9 primary care clinics, and 1 emergency department. We encountered and overcame challenges: a complex data build, choosing feasible outcomes to measure, issues with accurate coding, and maintaining positive stewardship relationships. Herein, we discuss solutions to challenges we encountered to provide guidance for those considering using this toolkit.

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Compartmental Learning versus Joint Learning in Engineering Education

Mathematics ◽

10.3390/math9060662 ◽

2021 ◽

Vol 9 (6) ◽

pp. 662

Author(s):

María Jesús Santos ◽

Alejandro Medina ◽

José Miguel Mateos Roco ◽

Araceli Queiruga-Dios

Keyword(s):

Engineering Students ◽

Chemical Engineering ◽

Linear Equations ◽

Mathematical Software ◽

Mathematical Concepts ◽

Joint Learning ◽

The University ◽

Academic Year ◽

Non Linear Equations ◽

Mathematics And Physics

Sophomore students from the Chemical Engineering undergraduate Degree at the University of Salamanca are involved in a Mathematics course during the third semester and in an Engineering Thermodynamics course during the fourth one. When they participate in the latter they are already familiar with mathematical software and mathematical concepts about numerical methods, including non-linear equations, interpolation or differential equations. We have focused this study on the way engineering students learn Mathematics and Engineering Thermodynamics. As students use to learn each matter separately and do not associate Mathematics and Physics, they separate each matter into different and independent compartments. We have proposed an experience to increase the interrelationship between different subjects, to promote transversal skills, and to make the subjects closer to real work. The satisfactory results of the experience are exposed in this work. Moreover, we have analyzed the results obtained in both courses during the academic year 2018–2019. We found that there is a relation between both courses and student’s final marks do not depend on the course.

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A Simple but Efficient Concept of Blended Teaching of Mathematics for Engineering Students during the COVID-19 Pandemic

Education Sciences ◽

10.3390/educsci11020056 ◽

2021 ◽

Vol 11 (2) ◽

pp. 56

Author(s):

Saray Busto ◽

Michael Dumbser ◽

Elena Gaburro

Keyword(s):

Facial Expressions ◽

Engineering Students ◽

Video Quality ◽

Lecture Hall ◽

Ex Post ◽

Teaching Of Mathematics ◽

Online Streaming ◽

The University ◽

Blended Teaching

In this article we present a case study concerning a simple but efficient technical and logistic concept for the realization of blended teaching of mathematics and its applications in theoretical mechanics that was conceived, tested and implemented at the Department of Civil, Environmental and Mechanical Engineering (DICAM) of the University of Trento, Italy, during the COVID-19 pandemic. The concept foresees traditional blackboard lectures with a reduced number of students physically present in the lecture hall, while the same lectures are simultaneously made available to the remaining students, who cannot be present, via high-quality low-bandwidth online streaming. The case study presented in this paper was implemented in a single University Department and was carried out with a total of n=1011 students and n=68 professors participating in the study. Based on our first key assumption that traditional blackboard lectures, including the gestures and the facial expressions of the professor, are even nowadays still a very efficient and highly appreciated means of teaching mathematics at the university, this paper deliberately does not want to propose a novel pedagogical concept of how to teach mathematics at the undergraduate level, but rather presents a technical concept of how to preserve the quality of traditional blackboard lectures even during the COVID-19 pandemic and how to make them available to the students at home via online streaming with adequate audio and video quality even at low internet bandwidth. The second key assumption of this paper is that the teaching of mathematics is a dynamic creative process that requires the physical presence of students in the lecture hall as audience so that the professor can instantaneously fine-tune the evolution of the lecture according to his/her perception of the level of attention and the facial expressions of the students. The third key assumption of this paper is that students need to have the possibility to interact with each other personally, especially in the first years at the university. We report on the necessary hardware, software and logistics, as well as on the perception of the proposed blended lectures by undergraduate students from civil and environmental engineering at the University of Trento, Italy, compared to traditional lectures and also compared to the pure online lectures that were needed as emergency measure at the beginning of the COVID-19 pandemic. The evaluation of the concept was carried out with the aid of quantitative internet bandwidth measurements, direct comparison of transmitted video signals and a careful analysis of ex ante and ex post online questionnaires sent to students and professors.

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