Kathleen Wermke1, Yufang Ruan2, Yun Feng3, Daniela Dobnig3, Sophia Stephan3, Peter Wermke4, Li Ma5, Hongyu Chang6, Youyi Liu2, Volker Hesse7, Hua Shu2. 1. Center for Pre-speech Development and Developmental Disorders, University Clinics, University of Wuerzburg, Germany. Electronic address: wermke_k@ukw.de. 2. National Key Laboratory of Cognitive Neuroscience and Learning, Beijing Normal University, Beijing, China. 3. Center for Pre-speech Development and Developmental Disorders, University Clinics, University of Wuerzburg, Germany. 4. IT Center, University of Wuerzburg, Germany. 5. Department of Gynecology and Obstetrics, The General Hospital of the PLA Rocket Force, Beijing, China. 6. Department of Pediatrics, The General Hospital of the PLA Rocket Force, Beijing, China. 7. German Center for Growth, Development and Health Encouragement during Childhood and Youth, Children's Hospital Berlin-Lichtenberg, Lindenhof, Germany; Institute for Experimental Paediatric Endocrinology, Charité-University Medicine, Berlin, Germany.
Abstract
OBJECTIVES: This study examined whether prenatal exposure to either a tonal or a nontonal maternal language affects fundamental frequency (fo) properties in neonatal crying. STUDY DESIGN: This is a population prospective study. PARTICIPANTS: A total of 102 neonates within the first week of life served as the participants. METHODS: Spontaneously uttered cries (N = 6480) by Chinese (tonal language group) and German neonates (nontonal group) were quantitatively analyzed. For each cry utterance, mean fo and four characteristic variation measures (fo range, fo fluctuation, pitch sigma, and pitch sigma fluctuation) were calculated, averaged for individual neonates, and compared between groups. RESULTS: A multiple analysis of variance highlighted a significant multivariate effect for language group: Wilks λ = .76, F(6, 95) = 4.96, P < .0001, ηp2 = .24. Subsequent univariate analyses revealed significant group differences for fo variation measures, with values higher in the tonal language group. The mean fo did not differ between groups. CONCLUSIONS: Data regarding fo variation in infant cries have been suggested as providing critical insight into the maturity of neurophysiological vocal control. Our findings, alongside with auditive perception studies, further underscore the assumption of an early shaping effect of maternal speech, particularly fo-based features, on cry features of newborns. Further studies are needed to reexamine this observation and to assess its potential diagnostic relevance.
OBJECTIVES: This study examined whether prenatal exposure to either a tonal or a nontonal maternal language affects fundamental frequency (fo) properties in neonatal crying. STUDY DESIGN: This is a population prospective study. PARTICIPANTS: A total of 102 neonates within the first week of life served as the participants. METHODS: Spontaneously uttered cries (N = 6480) by Chinese (tonal language group) and German neonates (nontonal group) were quantitatively analyzed. For each cry utterance, mean fo and four characteristic variation measures (fo range, fo fluctuation, pitch sigma, and pitch sigma fluctuation) were calculated, averaged for individual neonates, and compared between groups. RESULTS: A multiple analysis of variance highlighted a significant multivariate effect for language group: Wilks λ = .76, F(6, 95) = 4.96, P < .0001, ηp2 = .24. Subsequent univariate analyses revealed significant group differences for fo variation measures, with values higher in the tonal language group. The mean fo did not differ between groups. CONCLUSIONS: Data regarding fo variation in infant cries have been suggested as providing critical insight into the maturity of neurophysiological vocal control. Our findings, alongside with auditive perception studies, further underscore the assumption of an early shaping effect of maternal speech, particularly fo-based features, on cry features of newborns. Further studies are needed to reexamine this observation and to assess its potential diagnostic relevance.
Authors: Lynne Murray; Laura Bozicevic; Pier Francesco Ferrari; Kyla Vaillancourt; Louise Dalton; Tim Goodacre; Bhismadev Chakrabarti; Sarah Bicknell; Peter Cooper; Alan Stein; Leonardo De Pascalis Journal: Neural Plast Date: 2018-12-17 Impact factor: 3.599