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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02971735
Other study ID # 105-5290C
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date November 23, 2016
Est. completion date December 31, 2017

Study information

Verified date November 2016
Source Chang Gung Memorial Hospital
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

New designs of 6-year undergraduate medical education (UME) in Taiwan mainly include (1) integral curricula of body organ system, (2) multiple methods of clinical teaching and assessment, and (3) generalism in UME. Accompany with decreasing educational hours in the classrooms and hospital, essential but minor components of primary healthcare such as ophthalmology and otolaryngology-head and neck surgery (ORL-HNS) is disproportionately under-represented in UME. Novel medical education stresses on enabling self-directory learning and increasing learning hours outside the classrooms. Accordingly, we hypothesize that innovations in educational technology can enhance the learning outcomes of ORL-HNS. This study is aimed to determine whether mobile technology in e-learning (M-TEL) is an effective tool for the instruction of ORL-HNS and to compare effects of different cognitive styles on learning outcomes of M-TEL with various modules of medical education. This is a randomized controlled trial. We will recruit 60 UME students without previous training in ORL-HNS to undergo the Group Embedded Figures Test to determine their cognitive styles such as field dependence or field-independence. After blinded randomization, students are instructed on two modules of emergent ORL-HNS disorders, using either a standard e-learning of text-figure Power Point show or an interactive multimedia module. Subjects are evaluated on emergent ORL-HNS disorders using text-based assessment and multimedia assessment take place prior to and following instruction. After 7 days later, they will be assessed using global satisfaction score and AttrakDiff2 questionnaire. We anticipate that this study can confirm M-TEL can enhance the efficiency of the instruction of ORL-HNS and understand differences in learning outcomes of M-TEL with various modules of medical education between field dependence and filed independence using this platform.


Description:

Background: New designs of 6-year undergraduate medical education (UME) mainly include (1) integral curricula of body organ system, (2) multiple methods of clinical teaching and assessment, and (3) generalism in UME. UME is meant to enable graduates to become undifferentiated general physicians. Accompany with decreasing educational hours in the classrooms and hospital, essential but minor components of primary healthcare such as ophthalmology and otolaryngology-head and neck surgery (ORL-HNS) is disproportionately under-represented in UME. In Canada, substantial downstream effects on managing ORL-HNS problems have been noted in family medicine residents. In order to improve learning insufficiency and enhance clinical competency without increasing extra-hours in the classrooms and hospitals, novel medical education stresses on enabling self-directory learning and increasing learning hours outside the classrooms. Accordingly, we hypothesize that innovations in educational technology can enhance the learning outcomes of ORL-HNS. Purposes: This study is aimed to determine whether mobile technology in e-learning (M-TEL) is an effective tool for the instruction of ORL-HNS and to compare effects of different cognitive styles on learning outcomes of M-TEL with various modules of medical education. Material and Methods: This is a randomized controlled trial. Firstly, we have been setup a e-learning platform of the Top 10 emergent ORL-HNS disorders with translating into an application (APP) function that can execute in mobile devices. Secondly, we will recruit 60 UME students without previous training in ORL-HNS to undergo the Group Embedded Figures Test to determine their cognitive styles such as field dependence or field-independence. After blinded randomization, students are instructed on two modules of emergent ORL-HNS disorders, using either a standard e-learning of text-figure Power Point show or an interactive multimedia module. Subjects are evaluated on emergent ORL-HNS disorders using a text-based assessment and a multimedia assessment take place prior to and following instruction. Anticipating Outcome: This study can (1) establish a M-TEL of ORL-HNS that can deliver an innovatively mobile e-learning to supplement the deficiency of the classroom hours, (2) confirm M-TEL can enhance the efficiency of the instruction of ORL-HNS, and (3) understand differences in learning outcomes of M-TEL with various modules of medical education between field dependence and filed independence using this platform.


Recruitment information / eligibility

Status Completed
Enrollment 60
Est. completion date December 31, 2017
Est. primary completion date July 5, 2017
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 20 Years and older
Eligibility Inclusion Criteria: 1. Age > 20 years old; 2. UME students (defined as the three or four years of medical school training). Exclusion Criteria: 1. Previous ORL-HNS training; 2. Declining to participate.

Study Design


Related Conditions & MeSH terms


Intervention

Other:
mobile technology of e-learning (M-TEL)
UME students learn the Top 10 emergent ORL-HNS disorders using the M-TEL including the IM module or the PPS module.

Locations

Country Name City State
n/a

Sponsors (2)

Lead Sponsor Collaborator
Chang Gung Memorial Hospital Ministry of Science and Technology, Taiwan

References & Publications (5)

Alegría DA, Boscardin C, Poncelet A, Mayfield C, Wamsley M. Using tablets to support self-regulated learning in a longitudinal integrated clerkship. Med Educ Online. 2014 Mar 12;19:23638. doi: 10.3402/meo.v19.23638. eCollection 2014. — View Citation

Chapman DM, Calhoun JG. Validation of learning style measures: implications for medical education practice. Med Educ. 2006 Jun;40(6):576-83. — View Citation

Glicksman JT, Brandt MG, Parr J, Fung K. Needs assessment of undergraduate education in otolaryngology among family medicine residents. J Otolaryngol Head Neck Surg. 2008 Oct;37(5):668-75. — View Citation

Wolff M, Wagner MJ, Poznanski S, Schiller J, Santen S. Not another boring lecture: engaging learners with active learning techniques. J Emerg Med. 2015 Jan;48(1):85-93. doi: 10.1016/j.jemermed.2014.09.010. Epub 2014 Oct 13. Review. — View Citation

Yavner SD, Pusic MV, Kalet AL, Song HS, Hopkins MA, Nick MW, Ellaway RH. Twelve tips for improving the effectiveness of web-based multimedia instruction for clinical learners. Med Teach. 2015 Mar;37(3):239-44. doi: 10.3109/0142159X.2014.933202. Epub 2014 Aug 11. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Percentage Change in Multiple-choice Question (MCQ) Scores Subjects will undergo the duplicated 15-minute MCQ tests before after the M-TEL Subjects will undergo the duplicated 15-minute MCQ tests 15 minutes before the M-TEL intervention with either the IM module or the PPS module and immediately after the M-TEL intervention. before and immediately after the M-TEL intervention
Secondary Percentage Change in Multimedia Situation Test (MST) Scores Subjects will undergo the duplicated 15-minute MST tests 15 minutes before the M-TEL intervention with either the IM module or the PPS module and immediately after the M-TEL intervention. before and immediately after the M-TEL intervention
Secondary Global Satisfaction Score Global satisfaction score is measured using a visual analogue scale from 0 (very dissatisfied) to 10 (very satisfied) after 7 days post M-TEL. 7 days after the M-TEL intervention
Secondary AttrakDiff2 Questionnaire: Pragmatic Quality Score For more delicately evaluate the acceptance of technical innovations, we will assess "user experience" using the AttrakDiff2. AttrakDiff2 is developed as a tool by Hassenzahl's research group to be able to quantify attractive, identifiable, stimulating, and pragmatic qualities. The tool consists of 28 seven-step items whose poles are opposite adjectives (e.g. "confusing - clear", "unusual - ordinary", "good - bad"). Each set of adjective items is ordered into a scale of intensity. Each of the mean values of an item group creates a scale value for pragmatic quality (PQ), hedonic stimulation (HQ-S), hedonic identification (HQ-I), and attractiveness (ATT) (range: -3-3). 7 days after the M-TEL intervention
Secondary AttrakDiff2 Questionnaire: Hedonic Stimulation For more delicately evaluate the acceptance of technical innovations, we will assess "user experience" using the AttrakDiff2. AttrakDiff2 is developed as a tool by Hassenzahl's research group to be able to quantify attractive, identifiable, stimulating, and pragmatic qualities. The tool consists of 28 seven-step items whose poles are opposite adjectives (e.g. "confusing - clear", "unusual - ordinary", "good - bad"). Each set of adjective items is ordered into a scale of intensity. Each of the mean values of an item group creates a scale value for pragmatic quality (PQ), hedonic stimulation (HQ-S), hedonic identification (HQ-I), and attractiveness (ATT) (range: -3-3). 7 days after the M-TEL intervention
Secondary AttrakDiff2 Questionnaire: Hedonic Identification For more delicately evaluate the acceptance of technical innovations, we will assess "user experience" using the AttrakDiff2. AttrakDiff2 is developed as a tool by Hassenzahl's research group to be able to quantify attractive, identifiable, stimulating, and pragmatic qualities. The tool consists of 28 seven-step items whose poles are opposite adjectives (e.g. "confusing - clear", "unusual - ordinary", "good - bad"). Each set of adjective items is ordered into a scale of intensity. Each of the mean values of an item group creates a scale value for pragmatic quality (PQ), hedonic stimulation (HQ-S), hedonic identification (HQ-I), and attractiveness (ATT) (range: -3-3). 7 days after the M-TEL intervention
Secondary AttrakDiff2 Questionnaire: Attractiveness For more delicately evaluate the acceptance of technical innovations, we will assess "user experience" using the AttrakDiff2. AttrakDiff2 is developed as a tool by Hassenzahl's research group to be able to quantify attractive, identifiable, stimulating, and pragmatic qualities. The tool consists of 28 seven-step items whose poles are opposite adjectives (e.g. "confusing - clear", "unusual - ordinary", "good - bad"). Each set of adjective items is ordered into a scale of intensity. Each of the mean values of an item group creates a scale value for pragmatic quality (PQ), hedonic stimulation (HQ-S), hedonic identification (HQ-I), and attractiveness (ATT) (range: -3-3). 7 days after the M-TEL intervention
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