• Phonetics and Speech Sciences
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• v.6 no.2
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• pp.97-106
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• 2014

The purpose of this study was to (1) establish a Korean adult normative data for Iowa Oral Performance Instrument, (2) investigate the characteristics of maximal tongue and lip strength and tongue endurance scores according to age and gender, and (3) examine the correlation of those scores. The results showed that there were no significant differences of gender in maximal tongue strength and tongue endurance scores. But there were significant differences of age in maximal tongue and lip strength and tongue endurance scores. The data will provide an important database for speech language pathology with the purpose of diagnosis and treatment of tongue and lip dysfunction.

• Journal of the Korean Association of Oral and Maxillofacial Surgeons
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• v.43 no.4
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• pp.221-228
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• 2017

Objectives: The purpose of this study was to establish normative data for healthy Korean adults by measuring the maximal strength and endurance scores of the tongue, lip, and cheek, and to examine correlations between these measurements. Materials and Methods: This study included 120 subjects that were divided into three groups according to age: young (20-39 years), middle-aged (40-59 years), and older (over 60 years); and by gender. Measurements were taken using the Iowa Oral Performance Instrument (IOPI). Results: The mean maximal tongue strengths were as follows: young men ($46.7{\pm}10.2kPa$) and women ($32.1{\pm}7.9kPa$), middle-aged men ($40.9{\pm}9.3kPa$) and women ($36.9{\pm}8.6kPa$), and older men ($35.2{\pm}9.0kPa$) and women ($34.5{\pm}6.9kPa$). The mean tongue endurance scores were: young men ($28.8{\pm}12.6$ seconds) and women ($20.8{\pm}13.5$ seconds), middle-aged men ($17.0{\pm}8.5$ seconds) and women ($15.3{\pm}5.2$ seconds), and older men ($15.8{\pm}6.7$ seconds) and women ($17.9{\pm}8.1$ seconds). The mean maximal lip strengths were: young men ($11.6{\pm}3.0kPa$) and women ($11.4{\pm}3.8kPa$), middle-aged men ($11.4{\pm}4.2kPa$) and women ($11.1{\pm}5.1kPa$), and older men ($14.5{\pm}3.9kPa$) and women ($11.7{\pm}2.6kPa$). The mean lip endurance scores were: young men ($41.1{\pm}23.9$ seconds) and women ($22.4{\pm}21.7$ seconds), middle-aged men ($24.3{\pm}10.3$ seconds) and women ($30.5{\pm}13.4$ seconds), and older men ($24.9{\pm}11.0$ seconds) and women ($12.8{\pm}7.6$ seconds). The mean maximal cheek strengths were: young men ($24.5{\pm}4.6kPa$) and women ($20.5{\pm}4.3kPa$), middle-aged men ($25.2{\pm}6.4kPa$) and women ($21.2{\pm}5.5kPa$), and older men ($22.4{\pm}5.3kPa$) and women ($18.0{\pm}4.8kPa$). The mean cheek endurance scores were: young men ($47.8{\pm}24.4$ seconds) and women ($43.9{\pm}25.0$ seconds), middle-aged men ($27.3{\pm}11.3$ seconds) and women ($20.0{\pm}14.6$ seconds), and older men ($21.7{\pm}14.5$ seconds) and women ($17.2{\pm}11.4$ seconds). Conclusion: The data collected in this study will provide an important database of standardized measurements for maximal strength and endurance scores of the tongue, lip and cheek in healthy, normal Koreans.

• Phonetics and Speech Sciences
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• v.16 no.3
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• pp.59-69
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• 2024

Among the subgroups of speech sound disorder (SSD), the motor speech disorder (MSD) group is characterized by weak articulatory force. This study quantitatively measured and compared articulatory muscle strength between SSD and typically developing (TD) children. The Iowa Oral Performance Instrument (IOPI) was used to measure lip and tongue strength in 15 children with SSD and 15 TD children. We additionally measured peak lip and tongue pressure and endurance, and analyzed the correlation between each strength measure and the percentage of consonants correct (PCC). The findings were as follows: First, lip strength for the bilabial sounds did not differ between the two groups in the initial position but was significantly weaker in the SSD group in the final position. Tongue strength for alveolar sounds was weaker in the SSD group than in the TD group for the initial and final positions. Second, for lip and tongue strength, the difference in voicing features was significant in the TD group but not in the SSD group. Third, the peak pressure and endurance of the lips and tongue were significantly lower in the SSD group than in the TD group. Fourth, significantly higher static correlations were observed between most strength measures and the PCC. These findings suggest that weakness in articulatory motor execution may be an unrecognized underlying problem of SSD with unknown origin.