Comparison of conventional versus differential learning in periodontal scaling

Methods: Thirty-eight preclinical undergraduate students were randomly assigned to a test (differential learning, n = 19, females = 13) and a control group (conventional learning, n = 19, females = 14). Both groups were trained for 25 min daily over 10 days in subgingival scaling and root debridement on periodontitis models presenting either moderate (each n = 9) or severe peri odontitis (each n = 10). Differential learning comprised 20 different movement variations (2/day) without any feedback, while conventional learning was based on repetition and correction of instrument handling and scaling technique. Practical training included subgingival scaling of all tooth types on phantom heads. Practical exams were performed after the training session (t1) and 6 (t2) and 24 weeks (t3) later and comprised subgingival scaling of a mandibular canine and first molar within 4 min. The percentage of cleaned root surfaces was assessed and statistically analysed by mixed effect linear regression models (p < 0.05).

[1]  T. Attin,et al.  Comparative effectiveness of hand scaling by undergraduate dental students following a two‐week pre‐clinical training course , 2019, European journal of dental education : official journal of the Association for Dental Education in Europe.

[2]  A. Wiegand,et al.  Impact of a Differential Learning Approach on Practical Exam Performance: A Controlled Study in a Preclinical Dental Course. , 2017, Journal of dental education.

[3]  Reinhard Hickel,et al.  A New Model for Training in Periodontal Examinations Using Manikins. , 2016, Journal of dental education.

[4]  Falk Schwendicke,et al.  Removal of simulated biofilm: a preclinical ergonomic comparison of instruments and operators , 2015, Clinical Oral Investigations.

[5]  Falk Schwendicke,et al.  Subgingival instrumentation to remove simulated plaque in vitro: influence of operators’ experience and type of instrument , 2014, Clinical Oral Investigations.

[6]  D. Bates,et al.  Fitting Linear Mixed-Effects Models Using lme4 , 2014, 1406.5823.

[7]  E. James,et al.  Effects of Practice Variability on Unimanual Arm Rotation , 2014, Journal of motor behavior.

[8]  W. Schöllhorn,et al.  The nonlinear nature of learning : a differential learning approach , 2012 .

[9]  M. Macluskey,et al.  The retention of suturing skills in dental undergraduates. , 2011, European journal of dental education : official journal of the Association for Dental Education in Europe.

[10]  J. Meyle,et al.  Scope, competences, learning outcomes and methods of periodontal education within the undergraduate dental curriculum: a consensus report of the 1st European Workshop on Periodontal Education--position paper 2 and consensus view 2. , 2010, European journal of dental education : official journal of the Association for Dental Education in Europe.

[11]  K M Newell,et al.  Time scales of adaptive behavior and motor learning in the presence of stochastic perturbations. , 2009, Human movement science.

[12]  E. Müller,et al.  The effects of differential and variable training on the quality parameters of a handball throw , 2008, Sports biomechanics.

[13]  Wolfgang I. Schöllhorn,et al.  A quantitative dynamical systems approach to differential learning: self-organization principle and order parameter equations , 2008, Biological Cybernetics.

[14]  D van Steenberghe,et al.  Effect of reducing frequency of augmented feedback on manual dexterity training and its retention. , 2006, Journal of dentistry.

[15]  W. Schöllhorn,et al.  Does noise provide a basis for the unification of motor learning theories , 2006 .

[16]  C. Schwahn,et al.  Learning root debridement with curettes and power-driven instruments in vitro: the role of operator motivation and self-assessment. , 2002, European journal of dental education : official journal of the Association for Dental Education in Europe.

[17]  C. Schwahn,et al.  Learning root debridement with curettes and power-driven instruments. Part I: a training program to increase effectivity. , 2002, Journal of clinical periodontology.

[18]  T. Kocher,et al.  Effectiveness of subgingival instrumentation with power-driven instruments in the hands of experienced and inexperienced operators. A study on manikins. , 1997, Journal of clinical periodontology.

[19]  S. Wilson,et al.  A Multivariable Approach toward Predicting Dental Motor Skill Performance , 1988, Perceptual and motor skills.