Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/simulation-using-novel-equipment-designed-to-explain-spirometric-JLkL6VkYPd
References (46)
-
D. Pradhan, K. Berger (2012)
Images in clinical medicine. Dynamic extrathoracic airway obstruction.The New England journal of medicine, 367 1
-
WH Angoff (1971)
Educational measurement -
P. Quanjer, S. Stanojevic, T. Cole, X. Baur, G. Hall, B. Culver, P. Enright, J. Hankinson, M. Ip, Jinping Zheng, J. Stocks (2012)
Multi-ethnic reference values for spirometry for the 3–95-yr age range: the global lung function 2012 equationsEuropean Respiratory Journal, 40
-
J. Cotes, D. Chinn, Martin Miller (2006)
Lung Function: Physiology, Measurement and Application in Medicine -
Elise Teteris, Kristin Fraser, Bruce Wright, K. McLaughlin (2011)
Does training learners on simulators benefit real patients?Advances in Health Sciences Education, 17
-
D. Brown, Gordon Ewy, Loryn Feinberg, J. Felner, I. Gessner, D. Gordon, Barry Issenberg, W. McGaghie, Rosanna Millos, E. Petrusa, Stewart Pringle, Ross Scalese, S. Small, R. Waugh, A. Ziv (2005)
Features and uses of high-fidelity medical simulations that lead to effective learning: a BEME systematic reviewMedical Teacher, 27
-
P. Bradley (2006)
The history of simulation in medical education and possible future directionsMedical Education, 40
-
R. Maricle (1983)
Vocal-cord dysfunction presenting as asthma.The New England journal of medicine, 309 19
-
M. Giuliodori, S. DiCarlo (2008)
An improved model for simulating obstructive lung disease.Advances in physiology education, 32 2
-
J. Weller (2004)
Simulation in undergraduate medical education: bridging the gap between theory and practiceMedical Education, 38
-
C. Flanc, Clarke, N. Hills, J. Jeyasingh, K. Boardman, Calnan, D. Negus, L. Quesne, N. Chapman, D. Empey, London Hospital, L. E (1972)
Assessment of Upper Airways ObstructionBritish Medical Journal, 3
-
R. Miller, R. Hyatt (1969)
Obstructing lesions of the larynx and trachea: clinical and physiologic characteristics.Mayo Clinic proceedings, 44 3
-
O. Pedersen, R. Ingram (1985)
Configuration of maximum expiratory flow-volume curve: model experiments with physiological implications.Journal of applied physiology, 58 4
-
M. Hills, London SW75BD, P. Armitage (1979)
The two-period cross-over clinical trial.British journal of clinical pharmacology, 8 1
-
R. Pellegrino, G. Viegi, V. Brusasco, R. Crapo, F. Burgos, R. Casaburi, A. Coates, C. Grinten, P. Gustafsson, J. Hankinson, R. Jensen, D. Johnson, N. MacIntyre, R. McKay, Martin Miller, D. Navajas, O. Pedersen, J. Wanger (2005)
Interpretative strategies for lung function testsEuropean Respiratory Journal, 26
-
S Abrahamson, JS Denson, RM Wolf (1969)
Effectiveness of a simulator in training anesthesiology residentsJournal of Medical Education, 44
-
Harold Rotman, Howard Liss, J. Weg (1975)
Diagnosis of upper airway obstruction by pulmonary function testing.Chest, 68 6
-
(1971)
Scales , norms and equivalent scores -
WC McGaghie, VJ Siddall, PE Mazmanian, J Myers (2009)
Lessons for continuing medical education from simulation research in undergraduate and graduate medical education: effectiveness of continuing medical education: American College of Chest Physicians evidence-based educational guidelinesChest, 135
-
S. Abrahamson, J. Denson, R. Wolf (1969)
COMMENTARYQuality and Safety in Health Care, 13
-
G. Norman, K. Dore, L. Grierson (2012)
The minimal relationship between simulation fidelity and transfer of learningMedical Education, 46
-
B. Morlion, A. Polak (2005)
Simulation of lung function evolution after heart-lung transplantation using a numerical modelIEEE Transactions on Biomedical Engineering, 52
-
R. Ebel (1972)
Essentials of educational measurement -
J. Chase, T. Yuta, K. Mulligan, G. Shaw, B. Horn (2006)
A novel mechanical lung model of pulmonary diseases to assist with teaching and trainingBMC Pulmonary Medicine, 6
-
D. Krathwohl (2002)
A Revision of Bloom's Taxonomy: An OverviewTheory Into Practice, 41
-
P. Rees (1986)
Do medical students learn from multiple choice examinations?Medical Education, 20
-
C. Aring, T. Spies (1939)
A CRITICAL REVIEWJournal of Neurology and Psychiatry, 2
-
M. Lebowitz, R. Knudson, G. Robertson, B. Burrows (1982)
Significance of intraindividual changes in maximum expiratory flow volume and peak expiratory flow measurements.Chest, 81 5
-
Bjørn Hofmann (2009)
Why simulation can be efficient: on the preconditions of efficient learning in complex technology based practicesBMC Medical Education, 9
-
C. Shim, P. Corro, S. Park, M. Williams (2015)
Pulmonary function studies in patients with upper airway obstruction.The American review of respiratory disease, 106
-
Albert Miller (1992)
Lung function testing: selection of reference values and interpretative strategies.The American review of respiratory disease, 146 5 Pt 1
-
D. Rodenbaugh, H. Collins, S. DiCarlo (2002)
Spirometry: simulations of obstructive and restrictive lung diseases.Advances in physiology education, 26 1-4
-
D. Hayes, S. Kraman (2009)
The physiologic basis of spirometry.Respiratory care, 54 12
-
J. Jamison, H. Ross (1988)
Collation of student results in practical class experiments in physiology, using a BBC ECONET computer networkMedical Education, 22
-
N. Pride, S. Permutt, R. Riley, B. Bromberger-barnea (1967)
Determinants of maximal expiratory flow from the lungs.Journal of applied physiology, 23 5
-
L. Moores, E. Dellert, M. Baumann, M. Rosen (2015)
Effectiveness of Continuing Medical Education: American College of Chest Physicians Evidence-Based Educational Guidelines -
R. Miller, R. Hyatt (2015)
Evaluation of obstructing lesions of the trachea and larynx by flow-volume loops.The American review of respiratory disease, 108 3
-
H. Bass (1973)
The flow volume loop: normal standards and abnormalities in chronic obstructive pulmonary disease.Chest, 63 2
-
T. Gólczewski, M. Darowski (2006)
Virtual Respiratory System for Education and Research: Simulation of Expiratory Flow Limitation for SpirometryThe International Journal of Artificial Organs, 29
-
W. McGaghie, S. Issenberg, J. Barsuk, D. Wayne (2014)
A critical review of simulation‐based mastery learning with translational outcomesMedical Education, 48
-
Opera chirurgia -
G. Norman (2003)
RCT = results confounded and trivial: the perils of grand educational experimentsMedical Education, 37
-
J. Yernault, M. Englert, R. Sergysels, A. Coster (1973)
Upper airway stenosis: a physiologic study.The American review of respiratory disease, 108 4
-
Henry Roediger (2006)
The Power of Testing Memory Basic Research and Implications for Educational Practice -
J Cohen (1988)
Statistical power analysis for the behavioural sciences -
N Tjomsland, P Baskett (2002)
Asmund S. LaerdalResuscitation, 53
- Publisher
- Springer Journals
- Copyright
- Copyright © 2014 by Springer Science+Business Media Dordrecht
- Subject
- Education; Medical Education
- ISSN
- 1382-4996
- eISSN
- 1573-1677
- DOI
- 10.1007/s10459-014-9578-5
- pmid
- 25528245
- Publisher site
- See Article on Publisher Site
Abstract
Simulation of disorders of respiratory mechanics shown by spirometry provides insight into the pathophysiology of disease but some clinically important disorders have not been simulated and none have been formally evaluated for education. We have designed simple mechanical devices which, along with existing simulators, enable all the main dysfunctions which have diagnostic value in spirometry to be simulated and clearly explained with visual and haptic feedback. We modelled the airways as Starling resistors by a clearly visible mechanical action to simulate intra- and extra-thoracic obstruction. A narrow tube was used to simulate fixed large airway obstruction and inelastic bands to simulate restriction. We hypothesized that using simulators whose action explains disease promotes learning especially in higher domain educational objectives. The main features of obstruction and restriction were correctly simulated. Simulation of variable extra-thoracic obstruction caused blunting and plateauing of inspiratory flow, and simulation of intra-thoracic obstruction caused limitation of expiratory flow with marked dynamic compression. Multiple choice tests were created with questions allocated to lower (remember and understand) or higher cognitive domains (apply, analyse and evaluate). In a cross-over design, overall mean scores increased after 1½ h simulation spirometry (43–68 %, effect size 1.06, P < 0.0001). In higher cognitive domains the mean score was lower before and increased further than lower domains (Δ 30 vs 20 %, higher vs lower effect size 0.22, P < 0.05). In conclusion, the devices successfully simulate various patterns of obstruction and restriction. Using these devices medical students achieved marked enhancement of learning especially in higher cognitive domains.
Journal
Advances in Health Sciences Education – Springer Journals
Published: Dec 21, 2014