Spontaneous facial motility in infancy: A 3D kinematic analysis

Green, Jordan R.; Wilson, Erin M.

doi:10.1002/dev.20112

Cited by 44 publications

(39 citation statements)

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“…Technological advances in medical imaging have now enabled marker-free 3D facial motion capture systems to become commercially available which potentially eliminate many of the problems associated with 2D techniques and direct manual facial marker placement (Popat et al, 2009). Recent studies indicate a number of applications and promising results (Weeden et al, 2001;Trotman et al, 2005;Green and Wilson, 2006).…”

Section: Discussionmentioning

confidence: 96%

Three-dimensional assessment of functional change following Class 3 orthognathic correction – A preliminary report

Popat

Richmond

Marshall

et al. 2012

Journal of Cranio-Maxillofacial Surgery

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Section: Discussionmentioning

confidence: 96%

Three-dimensional assessment of functional change following Class 3 orthognathic correction – A preliminary report

Popat

Richmond

Marshall

et al. 2012

Journal of Cranio-Maxillofacial Surgery

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“…Potato Head), joint attention (e.g., picture books), and social interaction (e.g., dolls and pretend food). Because we were interested in understanding factors related to the coordinative shift from biologically-driven to speech-driven lip shape, we captured and analyzed a diverse variety of lip movements that included (a) spontaneous orofacial movements (Green & Wilson, 2006), (b) prelinguistic vocalizations (e.g., quasi-vowels, vowels, quasi-consonants, consonants, babble), and (c) words (e.g., spontaneous word production or repetition of real words, nonwords, and phrases such as “buy bobby a puppy”). For tokens that were elicited in imitation, a live model was provided by the caregiver or the experimenter.…”

Section: Methodsmentioning

confidence: 99%

“…Vegetative behaviors (e.g., hiccups, smiling, laughing, crying) were not analyzed (Green & Wilson, 2006; Nip, Green, & Marx, 2009). Productions were coded according to a previously reported protocol (Nip, Green, & Marx, 2009).…”

Section: Methodsmentioning

confidence: 99%

Longitudinal Development of Speech Motor Control: Motor and Linguistic Factors

Iuzzini-Seigel

Hogan

Rong

et al. 2015

Journal of Motor Learning and Development

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Lip shape in adult talkers is primarily driven by vertical opening; however, little is known about how children converge on this highly organized and efficient lip shape pattern. This longitudinal study investigated the development of lip shape control and its relation to speech and vocabulary acquisition in 28 typically developing children between 3 months and 5 years of age. Results suggested that during infancy lip shape was characterized by horizontal spreading of the lips, but that the contribution of vertical opening increased nonmonotonically over time. This change co-occurred with gains in expressive communication. These data suggest that lip shape may represent an important marker of normal oromotor development. Future work is required to determine the functional significance of the observed changes in lip shape control for identifying children at risk for speech and language impairments.

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“…Facial (lip and jaw) movements are registered in 3D using a high resolution, optical motion capture system 10 . The infrared digital video cameras capture the positions of 15 reflective markers that are attached to each participant's head and face at specific anatomical landmarks.…”

Section: Articulatory Subsystem: Facementioning

confidence: 99%

A Protocol for Comprehensive Assessment of Bulbar Dysfunction in Amyotrophic Lateral Sclerosis (ALS)

Yunusova¹,

Green²,

Wang³

et al. 2011

JoVE

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Improved methods for assessing bulbar impairment are necessary for expediting diagnosis of bulbar dysfunction in ALS, for predicting disease progression across speech subsystems, and for addressing the critical need for sensitive outcome measures for ongoing experimental treatment trials. To address this need, we are obtaining longitudinal profiles of bulbar impairment in 100 individuals based on a comprehensive instrumentation-based assessment that yield objective measures. Using instrumental approaches to quantify speech-related behaviors is very important in a field that has primarily relied on subjective, auditory-perceptual forms of speech assessment 1 . Our assessment protocol measures performance across all of the speech subsystems, which include respiratory, phonatory (laryngeal), resonatory (velopharyngeal), and articulatory. The articulatory subsystem is divided into the facial components (jaw and lip), and the tongue. Prior research has suggested that each speech subsystem responds differently to neurological diseases such as ALS. The current protocol is designed to test the performance of each speech subsystem as independently from other subsystems as possible. The speech subsystems are evaluated in the context of more global changes to speech performance. These speech system level variables include speaking rate and intelligibility of speech.The protocol requires specialized instrumentation, and commercial and custom software. The respiratory, phonatory, and resonatory subsystems are evaluated using pressure-flow (aerodynamic) and acoustic methods. The articulatory subsystem is assessed using 3D motion tracking techniques. The objective measures that are used to quantify bulbar impairment have been well established in the speech literature and show sensitivity to changes in bulbar function with disease progression. The result of the assessment is a comprehensive, across-subsystem performance profile for each participant. The profile, when compared to the same measures obtained from healthy controls, is used for diagnostic purposes. Currently, we are testing the sensitivity and specificity of these measures for diagnosis of ALS and for predicting the rate of disease progression. In the long term, the more refined endophenotype of bulbar ALS derived from this work is expected to strengthen future efforts to identify the genetic loci of ALS and improve diagnostic and treatment specificity of the disease as a whole. The objective assessment that is demonstrated in this video may be used to assess a broad range of speech motor impairments, including those related to stroke, traumatic brain injury, multiple sclerosis, and Parkinson disease.

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Spontaneous facial motility in infancy: A 3D kinematic analysis

Cited by 44 publications

References 50 publications

Three-dimensional assessment of functional change following Class 3 orthognathic correction – A preliminary report

Three-dimensional assessment of functional change following Class 3 orthognathic correction – A preliminary report

Longitudinal Development of Speech Motor Control: Motor and Linguistic Factors

A Protocol for Comprehensive Assessment of Bulbar Dysfunction in Amyotrophic Lateral Sclerosis (ALS)

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