TY - JOUR
T1 - Unpacking and validating the “integration” core concept of physiology by an Australian team
AU - Moro, Christian
AU - Douglas, Tracy
AU - Phillips, Ruben
AU - Towstoless, Michelle
AU - Hayes, Alan
AU - Hryciw, Deanne H.
AU - Lexis, Louise
AU - Tangalakis, Kathy
AU - Etherington, Sarah
AU - Gaganis, Voula
AU - Todd, Gabrielle
AU - Scott, Chris
AU - Estaphan, Suzanne
AU - Paravicini, Tamara
AU - Moorhouse, Andrew
AU - Wadley, Glenn
AU - Masters, Nicole
AU - Choate, Julia
AU - Chopin, Lisa
AU - Beckett, Elizabeth
AU - Bakker, Anthony
AU - Cameron, Melissa
AU - Uebergang, Tanya
AU - Cooke, Matthew
AU - Perry, Ben
AU - Task Force
N1 - Funding Information:
This project was supported by a David Jordan Teaching Award to K. Tangalakis from The Physiological Society UK.
Publisher Copyright:
© Copyright 2023 the American Physiological Society.
PY - 2023/9
Y1 - 2023/9
N2 - Consensus was reached on seven core concepts of physiology using the Delphi method, including “integration,” outlined by the descriptor “cells, tissues, organs, and organ systems interact to create and sustain life.” This core concept was unpacked by a team of 3 Australian physiology educators into hierarchical levels, identifying 5 themes and 10 subthemes, up to 1 level deep. The unpacked core concept was then circulated among 23 experienced physiology educators for comments and to rate both level of importance and level of difficulty for each theme and subtheme. Data were analyzed using a one-way ANOVA to compare between and within themes. The main theme (theme 1: the body is organized within a hierarchy of structures, from atoms to molecules, cells, tissues, organs, and organ systems) was almost universally rated as Essential. Interestingly, the main theme was also rated between Slightly Difficult to Not Difficult, which was significantly different from all other subthemes. There were two separate subsets of themes in relation to importance, with three themes rating between Essential and Important and the two other themes rating as Important. Two subsets in the difficulty of the main themes were also identified. While many core concepts can be taught concurrently, Integration requires the application of prior knowledge, with the expectation that learners should be able to apply concepts from “cell-cell communication,” “homeostasis,” and “structure and function,” before understanding the overall Integration core concept. As such, themes from the Integration core concept should be taught within the endmost semesters of a Physiology program. NEW & NOTEWORTHY This article proposes the inclusion of a core concept regarding “integration” into physiology-based curricula, with the descriptor “cells, tissues, organs, and organ systems interact to create and sustain life.” This concept expands prior knowledge and applies physiological understanding to real-world scenarios and introduces contexts such as medications, diseases, and aging to the student learning experience. To comprehend the topics within the Integration core concept, students will need to apply learned material from earlier semesters.
AB - Consensus was reached on seven core concepts of physiology using the Delphi method, including “integration,” outlined by the descriptor “cells, tissues, organs, and organ systems interact to create and sustain life.” This core concept was unpacked by a team of 3 Australian physiology educators into hierarchical levels, identifying 5 themes and 10 subthemes, up to 1 level deep. The unpacked core concept was then circulated among 23 experienced physiology educators for comments and to rate both level of importance and level of difficulty for each theme and subtheme. Data were analyzed using a one-way ANOVA to compare between and within themes. The main theme (theme 1: the body is organized within a hierarchy of structures, from atoms to molecules, cells, tissues, organs, and organ systems) was almost universally rated as Essential. Interestingly, the main theme was also rated between Slightly Difficult to Not Difficult, which was significantly different from all other subthemes. There were two separate subsets of themes in relation to importance, with three themes rating between Essential and Important and the two other themes rating as Important. Two subsets in the difficulty of the main themes were also identified. While many core concepts can be taught concurrently, Integration requires the application of prior knowledge, with the expectation that learners should be able to apply concepts from “cell-cell communication,” “homeostasis,” and “structure and function,” before understanding the overall Integration core concept. As such, themes from the Integration core concept should be taught within the endmost semesters of a Physiology program. NEW & NOTEWORTHY This article proposes the inclusion of a core concept regarding “integration” into physiology-based curricula, with the descriptor “cells, tissues, organs, and organ systems interact to create and sustain life.” This concept expands prior knowledge and applies physiological understanding to real-world scenarios and introduces contexts such as medications, diseases, and aging to the student learning experience. To comprehend the topics within the Integration core concept, students will need to apply learned material from earlier semesters.
KW - curriculum design
KW - higher education
KW - integrative physiology
KW - interdependence
KW - physiological integration
UR - http://www.scopus.com/inward/record.url?scp=85163903598&partnerID=8YFLogxK
U2 - 10.1152/ADVAN.00144.2022
DO - 10.1152/ADVAN.00144.2022
M3 - Article
C2 - 37227229
AN - SCOPUS:85163903598
SN - 1043-4046
VL - 47
SP - 436
EP - 442
JO - Advances in Physiology Education
JF - Advances in Physiology Education
IS - 3
ER -