Maximum repetition rate in a large cross-sectional sample of typically developing Dutch-speaking children

Purpose: The current study aims to provide normative data for the maximum repetition rate (MRR) development of Dutch-speaking children based on a large cross-sectional study using a standardised protocol. Method: A group of 1014 typically developing children aged 3;0 to 6;11 years performed the MRR task of the Computer Articulation Instrument (CAI). The number of syllables per second was calculated for mono-, bi-, and trisyllabic sequences (MRR-pa, MRR-ta, MRR-ka, MRR-pata, MRR-taka, MRR-pataka). A two-way mixed ANOVA was conducted to compare the effects of age and gender on MRR scores in diff... Mehr ...

Verfasser: van Haaften, Leenke
Diepeveen, Sanne
Terband, Hayo
de Swart, Bert
van den Engel-hoek, Lenie
Maassen, Ben
Dokumenttyp: Artikel
Erscheinungsdatum: 2021
Reihe/Periodikum: van Haaften , L , Diepeveen , S , Terband , H , de Swart , B , van den Engel-hoek , L & Maassen , B 2021 , ' Maximum repetition rate in a large cross-sectional sample of typically developing Dutch-speaking children ' , International Journal of Speech-Language Pathology , vol. 23 , no. 5 , pp. 508-518 . https://doi.org/10.1080/17549507.2020.1865458
Schlagwörter: maximum repetition rate / diadochokinesis / speech development / motor speech / normative data / children
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-29444561
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : https://hdl.handle.net/11370/a2158535-1e89-4449-b88f-fe229329f24e

Purpose: The current study aims to provide normative data for the maximum repetition rate (MRR) development of Dutch-speaking children based on a large cross-sectional study using a standardised protocol. Method: A group of 1014 typically developing children aged 3;0 to 6;11 years performed the MRR task of the Computer Articulation Instrument (CAI). The number of syllables per second was calculated for mono-, bi-, and trisyllabic sequences (MRR-pa, MRR-ta, MRR-ka, MRR-pata, MRR-taka, MRR-pataka). A two-way mixed ANOVA was conducted to compare the effects of age and gender on MRR scores in different MRR sequences. Result: The data analysis showed that overall MRR scores were affected by age group, gender and MRR sequence. For all MRR sequences the MRR increased significantly with age. MRR-pa was the fastest sequence, followed by respectively MRR-ta, MRR-pata, MRR-taka, MRR-ka and MRR-pataka. Overall MRR scores were higher for boys than for girls, for all MRR sequences. Conclusion: This study presents normative data of MRR of Dutch-speaking children aged 3;0 to 6;11 years. These norms might be useful in clinical practice to differentiate children with speech sound disorders from typically developing children. More research on this topic is necessary. It is also suggested to collect normative data for other individual languages, using the same protocol.