BME Labs in the Era of COVID-19: Transitioning a Hands-on Integrative Lab Experience to Remote Instruction Using Gamified Lab Simulations

Allen, Timothy E.; Barker, Shannon D.

doi:10.1007/s43683-020-00015-y

Cited by 22 publications

(17 citation statements)

References 8 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Similar concerns about the lack of workforce development have been expressed about graduates within many academic areas, including the medical profession (e.g., Böckers et al 2021, Masterton et al 2021, zoology (Davis-Berg and Kocot 2021), and engineering (Asgari et al 2021, Johnson andBarr 2021). In some disciplines (e.g., medical), successful workarounds have been developed to adapt hands-on laboratory courses to online learning through use of recorded video demonstrations, virtual reality, and augmented reality simulations (e.g., Allen andBarker 2021, Masterton et al 2021). In some cases, it was reported that although successful, those alternative lab approaches made learning more challenging for students and required more effort for them to engage with the material while leaving them with the feeling that they still lost some of the experience that comes with hands-on learning (Allen and Barker 2021).…”

Section: Discussionmentioning

confidence: 99%

How Will COVID-19 Change Forestry Education? A Study of US Forest Operations Instructors

Dodson

Blinn

2021

Journal of Forestry

View full text Add to dashboard Cite

The COVID-19 (COVID) pandemic affected nearly every aspect of higher education. It has been particularly disruptive to forest operations courses that rely heavily on field experiences. Dodson and Blinn (2021) surveyed US forest operations instructors at four-year institutions granting SAF-accredited forestry degrees to understand how they rapidly modified courses during spring 2020 to accommodate a move to fully remote instruction. Through an online survey and interviews, a follow-up study was conducted to understand how courses were modified when instructors had time to prepare and what, if any, of those modifications are likely to be retained upon a return to in-person instruction. Two main themes emerged from the survey and interviews: instructors will expand the range of tools and methods used to convey course content, and they have a renewed respect for the importance of field experience and personal interactions. Study Implications COVID-19 has affected academic instruction and workforce readiness. A broadening of instructors’ digital skill sets and resources, pedagogical modifications, and a renewed appreciation of field experiences and interactions with students will have a positive influence on instruction in the future. The professional preparation of graduates suffered during the pandemic because of a marked decrease in field time and personal interaction between and among faculty and students. Employers need to anticipate that additional training in field methods and application of forestry concepts to real-world situations may be necessary for new employees who were educated during the pandemic.

show abstract

Section: Discussionmentioning

confidence: 99%

How Will COVID-19 Change Forestry Education? A Study of US Forest Operations Instructors

Dodson

Blinn

2021

Journal of Forestry

View full text Add to dashboard Cite

show abstract

“…Conversely, a study done in the Department of Biomedical Engineering, University of Virginia, showed that 34% of the students preferred online learning, while 36% had mixed experiences and 26% struggled and felt that they missed out on indispensable laboratory applications. 11 The authors also highlight the importance of laboratory video demonstrations, virtual office hours, and pre-recorded lectures, which the students found to be very useful.…”

Section: Students' Feedback and Commentsmentioning

confidence: 98%

Converting a formerly in‐person biochemistry course based undergraduate research experience to online teaching during the COVID‐19 pandemic

Ashkanani

Bayraktar

et al. 2021

Biochem Molecular Bio Educ

View full text Add to dashboard Cite

The COVID-19 pandemic had a significant impact on the delivery of undergraduate courses around the world, and this was no different for the Biochemistry Capstone course offered to Weill Cornell Medicine-Qatar's second year pre-medical students during the 2021 spring semester. The course, which was previously delivered in-person and offered an opportunity for students to familiarize themselves with research and laboratory techniques, had to be modified to be delivered online. The online delivery of the course mainly consisted of "Zoom" sessions, "Canvas" materials, and data analysis using Microsoft Excel raw data sheets. The final assessment of the course consisted of a research report encompassing the procedures discussed, the results of the literature search, and data analysis carried out for the duration of the course. At the end of the course, students completed a survey on the online delivery of the course. It was evident that the majority of students preferred either a combination of in-person and online delivery or in-person delivery only, rather than a fully online course. Students' feedback as well as other literature on the online delivery of courses were considered in order to potentially improve the course for the upcoming years.

show abstract

“…Interactive simulation tools provide a valuable alternative to the analogue lab experiments, with a higher student engagement compared to lab animations or videos (Diwakar et al 2016;Allen and Barker 2021). In the virtual environment, students can perform individual lab experiments from PCR over gel electrophoresis to microscopy or engage in performing a whole SynBio routine from building a genetic circuit to transformation by using e.g.…”

Section: Wet Lab Simulators and Virtual Labsmentioning

confidence: 99%

A toolbox for digitally enhanced teaching in synthetic biology

Muth

Sánchez

Claus

et al. 2021

FEMS Microbiology Letters

View full text Add to dashboard Cite

The global pandemic of COVID-19 has forced educational provision to suddenly shift to a digital environment all around the globe. During these extraordinary times of teaching and learning both the challenges and the opportunities of embedding technologically enhanced education permanently became evident. Even though reinforced by constraints due to the pandemic, teaching through digital tools increases the portfolio of approaches to reach learning outcomes in general. In order to reap the full benefits, this Minireview displays various initiatives and tools for distance education in the area of Synthetic Biology in higher education while taking into account specific constraints of teaching Synthetic Biology from a distance, such as collaboration, laboratory and practical experiences. The displayed teaching resources can benefit current and future educators and raise awareness about a diversified inventory of teaching formats as a starting point to reflect upon one's own teaching and its further advancement.

show abstract

BME Labs in the Era of COVID-19: Transitioning a Hands-on Integrative Lab Experience to Remote Instruction Using Gamified Lab Simulations

Cited by 22 publications

References 8 publications

How Will COVID-19 Change Forestry Education? A Study of US Forest Operations Instructors

How Will COVID-19 Change Forestry Education? A Study of US Forest Operations Instructors

Converting a formerly in‐person biochemistry course based undergraduate research experience to online teaching during the COVID‐19 pandemic

A toolbox for digitally enhanced teaching in synthetic biology

Contact Info

Product

Resources

About