An Inquiry-Based Learning STEM Outreach Module to Teach Principles of Bioadhesives and Tissue Repair

Christopher James Panebianco; Neharika Bhadouria; Olivia Saebyul Kim; Jillian R. Frost; Angela Huang; Poorna Dutta; Andrea Vernengo; Jennifer Weiser

An Inquiry-Based Learning STEM Outreach Module to Teach Principles of Bioadhesives and Tissue Repair

Christopher James Panebianco
, Neharika Bhadouria
, Olivia Saebyul Kim
, Jillian R. Frost
, Angela Huang
, Poorna Dutta
, Andrea Vernengo
, Jennifer Weiser

Research output: Contribution to journal › Conference article › peer-review

Abstract

Bioadhesives are an important subset of biomaterials, which aid wound healing, hemostasis, and tissue repair. In order to advance the field of bioadhesives to promote more regenerative healing, there is a societal need to teach diverse trainees about their design, engineering, and testing. To address this, we deployed a hands-on, inquiry-based learning (IBL) bioadhesives module to middle school students from underserved communities in the Young Eisner Scholars (YES) program. The module, which lasted approximately 3 hr, was designed to teach students about applications of bioadhesives, engineering bioadhesives for various biomedical applications, and mechanically testing their adhesive strength using standard practices. Students who participated in our IBL bioadhesives module displayed significant learning gains by pre/post-test assessment, demonstrating that the module was effective for middle school outreach. Pre/post-survey assessments showed no significant differences in attitudes towards STEM, which was likely due to the fact that students in YES had a strong predisposition for STEM. Overall, results motivate the use of this module, or similar hands-on IBL modules, for outreach with K-12 students who are underrepresented in STEM.

Original language	English
Journal	ASEE Annual Conference and Exposition, Conference Proceedings
State	Published - 25 Jun 2023
Event	2023 ASEE Annual Conference and Exposition - The Harbor of Engineering: Education for 130 Years, ASEE 2023 - Baltimore, United States Duration: 25 Jun 2023 → 28 Jun 2023

Cite this

@article{d55e29b069714d7684b780e167569dbb,

title = "An Inquiry-Based Learning STEM Outreach Module to Teach Principles of Bioadhesives and Tissue Repair",

abstract = "Bioadhesives are an important subset of biomaterials, which aid wound healing, hemostasis, and tissue repair. In order to advance the field of bioadhesives to promote more regenerative healing, there is a societal need to teach diverse trainees about their design, engineering, and testing. To address this, we deployed a hands-on, inquiry-based learning (IBL) bioadhesives module to middle school students from underserved communities in the Young Eisner Scholars (YES) program. The module, which lasted approximately 3 hr, was designed to teach students about applications of bioadhesives, engineering bioadhesives for various biomedical applications, and mechanically testing their adhesive strength using standard practices. Students who participated in our IBL bioadhesives module displayed significant learning gains by pre/post-test assessment, demonstrating that the module was effective for middle school outreach. Pre/post-survey assessments showed no significant differences in attitudes towards STEM, which was likely due to the fact that students in YES had a strong predisposition for STEM. Overall, results motivate the use of this module, or similar hands-on IBL modules, for outreach with K-12 students who are underrepresented in STEM.",

author = "Panebianco, \{Christopher James\} and Neharika Bhadouria and Kim, \{Olivia Saebyul\} and Frost, \{Jillian R.\} and Angela Huang and Poorna Dutta and Andrea Vernengo and Jennifer Weiser",

note = "Publisher Copyright: {\textcopyright} American Society for Engineering Education, 2023.; 2023 ASEE Annual Conference and Exposition - The Harbor of Engineering: Education for 130 Years, ASEE 2023 ; Conference date: 25-06-2023 Through 28-06-2023",

year = "2023",

month = jun,

day = "25",

language = "English",

journal = "ASEE Annual Conference and Exposition, Conference Proceedings",

issn = "2153-5965",

publisher = "American Society for Engineering Education",

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TY - JOUR

T1 - An Inquiry-Based Learning STEM Outreach Module to Teach Principles of Bioadhesives and Tissue Repair

AU - Panebianco, Christopher James

AU - Bhadouria, Neharika

AU - Kim, Olivia Saebyul

AU - Frost, Jillian R.

AU - Huang, Angela

AU - Dutta, Poorna

AU - Vernengo, Andrea

AU - Weiser, Jennifer

PY - 2023/6/25

Y1 - 2023/6/25

N2 - Bioadhesives are an important subset of biomaterials, which aid wound healing, hemostasis, and tissue repair. In order to advance the field of bioadhesives to promote more regenerative healing, there is a societal need to teach diverse trainees about their design, engineering, and testing. To address this, we deployed a hands-on, inquiry-based learning (IBL) bioadhesives module to middle school students from underserved communities in the Young Eisner Scholars (YES) program. The module, which lasted approximately 3 hr, was designed to teach students about applications of bioadhesives, engineering bioadhesives for various biomedical applications, and mechanically testing their adhesive strength using standard practices. Students who participated in our IBL bioadhesives module displayed significant learning gains by pre/post-test assessment, demonstrating that the module was effective for middle school outreach. Pre/post-survey assessments showed no significant differences in attitudes towards STEM, which was likely due to the fact that students in YES had a strong predisposition for STEM. Overall, results motivate the use of this module, or similar hands-on IBL modules, for outreach with K-12 students who are underrepresented in STEM.

AB - Bioadhesives are an important subset of biomaterials, which aid wound healing, hemostasis, and tissue repair. In order to advance the field of bioadhesives to promote more regenerative healing, there is a societal need to teach diverse trainees about their design, engineering, and testing. To address this, we deployed a hands-on, inquiry-based learning (IBL) bioadhesives module to middle school students from underserved communities in the Young Eisner Scholars (YES) program. The module, which lasted approximately 3 hr, was designed to teach students about applications of bioadhesives, engineering bioadhesives for various biomedical applications, and mechanically testing their adhesive strength using standard practices. Students who participated in our IBL bioadhesives module displayed significant learning gains by pre/post-test assessment, demonstrating that the module was effective for middle school outreach. Pre/post-survey assessments showed no significant differences in attitudes towards STEM, which was likely due to the fact that students in YES had a strong predisposition for STEM. Overall, results motivate the use of this module, or similar hands-on IBL modules, for outreach with K-12 students who are underrepresented in STEM.

UR - https://www.scopus.com/pages/publications/85172113347

M3 - Conference article

AN - SCOPUS:85172113347

SN - 2153-5965

JO - ASEE Annual Conference and Exposition, Conference Proceedings

JF - ASEE Annual Conference and Exposition, Conference Proceedings

T2 - 2023 ASEE Annual Conference and Exposition - The Harbor of Engineering: Education for 130 Years, ASEE 2023

Y2 - 25 June 2023 through 28 June 2023

ER -

An Inquiry-Based Learning STEM Outreach Module to Teach Principles of Bioadhesives and Tissue Repair

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